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Space and the US–Japan alliance: reflections on Japan's geopolitical and geoeconomic strategy

Published online by Cambridge University Press:  03 February 2023

Saadia M. Pekkanen*
Affiliation:
University of Washington, Seattle, WA, USA
*
Corresponding author. E-mail: smp1@uw.edu
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Abstract

Japan, and its alliance with the USA, is central to the unfolding politics of the new space race. This essay draws attention to the ways the Japanese state has positioned its geopolitical and geoeconomic interests related to space in the context of the US–Japan alliance. It probes the material and ideational elements that are driving the Japanese state to closer alignment with its formal ally in the military, civilian, and commercial space domains. But while all these realities bode well for alliance collaboration, there are reasons to be cautious. While the Japanese state has proactively aligned its space policy and postures with the USA, it is not forever caught in the US orbit. Given the uncertain fate of US domestic politics that bears on great power competition, Japan is also prudently positioning for how the status of its ally may evolve. This is what complicates straightforward projections about alliance cooperation and balance of power politics in the unfolding international space order.

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Japan, and its alliance with the United States, is central to the unfolding politics of the new space race. As a great power, the United States is intent on creating a US-centric international space order. To bring it about in the geopolitical flux today, the US needs allies and partners. One critical – and perhaps the most pivotal ally in its quest is Japan – a country with which the US has had one of the most enduring treaty alliances in the postwar period. In this essay, I focus on the prospects for the US–Japan alliance in outer space activities from the perspective of Japan, a new angle on a subject long of interest to distinguished Japan scholars and practitioners (Pharr, Reference Pharr and Curtis1993; Krauss and Pempel, Reference Krauss and Pempel2004; Green, Reference Green2010; Smith, Reference Smith2019; Krauss, Reference Krauss, Pekkanen and Pekkanen2022). Doing so also gives us a different lens for understanding how and why the Japanese state is positioning in the shifting realities of the contemporary international space order, marked by the rise, wavering, and decline of great powers.

Japan is unquestionably one of the world's preeminent spacefaring nations. It has full-spectrum and independent capabilities in almost all foundational space technologies – liquid- and solid-fuel rockets, spacecraft for deep space missions and counterspace capabilities, and a wide range of big and small satellites for Earth observation, communications, and position, navigation, and timing (Pekkanen and Kallender-Umezu, Reference Pekkanen and Kallender-Umezu2010, Reference Pekkanen, Kallender-Umezu, Jain and Williams2011). Japan's space technology narrative is now well acknowledged, has not reached some plateau, and continues to evolve in important and innovative ways as noted by a wide range of scholars, lawyers, and policy analysts around the world (Oros, Reference Oros2007; Aoki Reference Aoki, Longsdon and Moltz2008, Reference Aoki2011; Moltz, Reference Moltz2012: 43–69; Martin, Reference Martin2015, 2021; Suzuki, Reference Suzuki, Schrogl, Hays, Robinson, Moura and Giannopapa2015; Kallender, Reference Kallender2016; Fukushima, Reference Fukushima2017; Kallender and Hughes, Reference Kallender and Hughes2019; Aliberti and Hadley, Reference Aliberti and Hadley2020; Fatton, Reference Fatton2020; Pekkanen, Reference Pekkanen2020a; Wilson, Reference Wilson2020). In this essay, I draw attention more to how Japan's foundational space technologies are enabling a new Japanese national space strategy at an opportune moment in history, and reflect on what that means for the US–Japan alliance.

A set of intertwined questions animate this essay. What are the forces that are driving the Japanese state down this particular path of alliance cooperation? Are there specific indicators of collaboration in the military, civilian, and commercial space domains? What are the actual prospects for economic gains and profits? What do the unfolding patterns tell us more broadly about the militarization and weaponization of space technologies? What do Japan's strategic choices suggest about the durability of the US–Japan alliance? Are the emerging trajectories the Japanese state is helping to set in motion likely to stay the course? Is any kind of a military space alliance likely to endure? What are the consequences of Japan's choices for the new international space order, and for balance of power politics around and above us?

The remainder of this essay is in three sections. The first section sets out an analytical framework that connects a body of Japan scholarship to some strands from neoclassical realism, and that accords primacy to the Japanese state in forging a national space strategy as great power competition unfolds. It draws attention to two important drivers for Japan, a systemic threat-based narrative on outer space that aligns with US views at a time of geopolitical flux, and that, as it happens, dovetails also with the domestic economic interests of a set of old and new private space actors. The second section discusses the ways in which the Japanese state has embedded both prongs of its national space strategy – the geopolitical and geoeconomic – under the rubric of the US–Japan alliance. It sets out the three sets of interactions that observably show Japan's closer alignment with its formal ally in the military, civilian, and commercial space domains. While their contents are deeply intertwined, the sets – formal and informal initiatives, domestic reconfigurations, and civil and commercial pathways – are analytically distinct as markers of collaboration. They shine a light on the many ways that Japan remains supportive of the alliance. From dedicated military space units intent on interoperability to the expanding quest for lunar outposts involving some of the most cutting-edge technological ventures, the realities bode well for alliance collaboration. But the third section concludes by setting out reasons to be cautious for any straightforward projections. While the Japanese state has proactively aligned its space policy and postures with the US in the short to medium term, it is not forever caught in the US orbit in the long term. Given the uncertain fate of US domestic politics that bears on great power competition, Japan is also prudently positioning for how the status of its ally may evolve. This uncertainty is what complicates projections about alliance cooperation and balance of power politics in the unfolding international space order.

1. Analytical framework

Today, global space realities are transforming human activities on and off the planet, and remapping the economic and national security prospects for all nations (Pekkanen, Reference Pekkanen2019). As the phenomena under study are emerging, my modest goal for this essay is to offer a set of reflections that bring together analytical and empirical work on Japan in the world and extend it to Japan in outer space affairs.

I use state-centric framing that resonates with a wide variety of material and ideational forces that have historically shaped our scholarly understanding of Japan's foreign and industrial policies; and that keep analyses attuned to the interactions of both international and domestic realities that are not easy to separate in the real world (Johnson, Reference Johnson1982; Berger, Reference Berger1993; Samuels, Reference Samuels1994, Reference Samuels2007; Pyle, Reference Pyle2007: 41–65; Oros, Reference Oros2008, Reference Oros2017; Midford, Reference Midford2020; Michishita, Reference Michishita, Pekkanen and Pekkanen2022; Krauss, Reference Krauss, Pekkanen and Pekkanen2022: 811–812, 826–828). These constructs also connect to some strands in neoclassical realism, which draw attention to the centrality of states at the interface of domestic and international realities, to their placement in the international system, to the relative material power capabilities and place that fundamentally shape their foreign policies, and to the domestic political, perceptual, and institutional contexts that shape their choices (Zakaria, Reference Zakaria1992: 178–181, 197–198; Rose, Reference Rose1998: 146–147, 154; Wohlforth, Reference Wohlforth, Reus-Smit and Snidal2008: 140–141; Lobell et al., Reference Lobell, Ripsman and Taliaferro2009; Ripsman et al., Reference Ripsman, Taliaferro and Lobell2016).

In the space domain, the Japanese state has long backed emerging technologies, devised policies and strategies that affect their industrial prospects and, of special interest in this essay, determined how and which bilateral and multilateral alignments would affect their evolution in uncertain foreign settings. In short, as it has done historically and in other contexts, the Japanese state intends to safeguard its preeminence by all means necessary in the unfolding new frontiers of space (Pekkanen, Reference Pekkanen2003; Reference Pekkanen, Pekkanen and Pekkanen2022; GOJ, 2021). Today, from the perspective of the Japanese state, there are two deeply intertwined factors that have a bearing on the evolution of the US–Japan alliance in outer space activities.

1.1 Geopolitical narrative

The first of these underpins the geopolitical narrative of Japan's space strategy. Because outer space activities are rooted in the rivalries and rifts on Earth, they reflect the changing – and increasingly negative and pessimistic – perceptions of geopolitics in Asia. There is historical precedent for what we are seeing unfolding around us today (Davis, Reference Davis2008/09). What was thought relevant for a different time and political reality when the Anglo–Japanese alliance was center stage seems to my mind, with slight substitutions, just as apt today for thinking broadly about alliances in and out of Asia:

The [US–Japan] alliance has implications, however, which are broader than the relationship between [the United States] and Japan. It [grows] out of the situation in the far east as a whole: the need for an alliance [is] felt because it seem[s] necessary for them to have a common policy in [Asia] in order to resist the actions of the other powers there. It is necessary, therefore, to analyse the international situation in the far east [today] (Nish, Reference Nish2012: 14).

As then, so now the stability of the status quo is at issue and a search for a ‘common policy’ is on – this time Japan seeking to act in concert with the US. For these two allies, the situation today is about the rise of China and its conduct. There are significant controversies about China's behavior in the South China Sea, its forceful posture toward Taiwan, and its ‘wolf warrior’ diplomacy (Zhang, 2019; Chubb, 2020/21; Khan, Reference Khan2021; Kyodo, Reference Kyodo2022). Such concerns also extend to other regions and domains, including space. China is already prominent in the complicated space politics that involves almost every country in East, Southeast, and South Asia; and it is well understood that, taken together, the developments and interactions of these players will also shape the prospects for future competition and collaboration in the international relations of space (Moltz, Reference Moltz2012). Chinese leadership is forthright about making China not just a major space power, but a strong one that can surpass the still dominant status of the US (Pollpeter, Reference Pollpeter2020: 12). While China has demonstrated its own noteworthy civilian and commercial goals, such as space stations and incredible moon landings, its extraordinary achievements have been tarnished by its much-publicized military assertiveness not just around but above us. China's antisatellite (ASAT) test in 2007, and a recent hypersonic missile test in 2021 attest to the country's determination to modernize its military preparedness in and through space (Tellis, Reference Tellis2007; Hitchens, Reference Hitchens2021b; Sevastopulo and Hille, Reference Sevastopulo and Hille2021).

These trajectories fuel a great power competition for the US, in which it has named both Russia and China outright as competitors bent on establishing regional preeminence and global influence (Garamone, Reference Garamone2019; Colby and Mitchell, Reference Colby and Mitchell2020; O'Rourke, Reference O'Rourke2021). Predictably, doing so shapes reactions from China, deepening prospects for a bipolar world (Maher, Reference Maher2018; Tunsjø, Reference Tunsjø2018, Reference Tunsjø2020; Wang, Reference Wang2021, Zhao, Reference Zhao2021, Reference Zhao2022). This also has consequences for the space domain. In my judgment, it is this: we are slouching toward an era marked also by the bipolarity of space alliances, meaning two contending sets of formal and informal alliances extending into space that that also reflect the concerning geopolitics around us (Pekkanen, Reference Pekkanen2021b, Reference Pekkanen, Pekkanen and Blountforthcoming). On the one side there is the US with allies like Japan and newfound Quadrilateral Security Dialogue (QUAD) friends, attempting to coordinate like-mindedness in cross-domain operations (Vergun, Reference Vergun2019). On the other is China, with a newly minted lunar pact with Russia, which is anchoring its Space Information Corridor in the customer base within its Belt-and-Road infrastructure initiative (Pekkanen, Reference Pekkanen2017; Pollpeter et al., Reference Pollpeter, Ditter, Miller and Waidelich2020: 22–23; Sato, Reference Sato2020).

Whatever the eventual outcomes, depictions, or stability of such structural shifts, the US–Japan alliance is central to the unfolding trajectories of the emerging bipolarity in space. As is well known, the US and the alliance, has loomed large in Japan's postwar foreign economic and political relations (Komine, Reference Komine2017; Matsuoka, Reference Matsuoka2018; Smith, Reference Smith2019: 31–54, 190–240; Krauss, Reference Krauss, Pekkanen and Pekkanen2022). Tokyo's ‘extreme security dependence on Washington’ makes the alliance dilemmas of abandonment and entanglement even more acute to Japanese strategizing in the vagaries of international politics and the complications of the country's domestic political culture (Berger, Reference Berger1993; Katzenstein, Reference Katzenstein1998; Izumikawa, Reference Izumikawa2010; Vosse and Midford, eds. Reference Vosse and Midford2018; Sakaki et al., Reference Sakaki, Maull, Lukner, Krauss and Berger2020: 13 [for quote]). Through the ups and downs over time, the former enemy combatants have managed to forge an alliance focused on stability not just in regional but in global politics (Sakaguchi, Reference Sakaguchi2021). The matter at hand is to see where the alliance is headed in the space domain, to get a sense of the possibilities and constraints.

Well aware of the strategic reorientations on the part of its formal ally in space matters, Japan today is playing a pivotal role in deepening the geopolitics and shape of space-relevant alliances (Pekkanen, Reference Pekkanen2021b). In a departure from the past, Japan's political leaders have begun to publicly articulate their concerns about Taiwan, and their interest in closer military cooperation with the US in the regional security dynamics (Gale and Tsuneoka, Reference Gale and Tsuneoka2021; Liff, Reference Liff, Denmark and Myers2021: 275). Japan also presently shares, and openly vocalizes, the same threat assessments concerning outer space activities as the United States (Pekkanen, Reference Pekkanen, Pekkanen and Pekkanen2022: 769–771). These are rooted in a common understanding of great power competition as it extends to space, especially between the US and China. One pessimistic conclusion in that domain is that there appear to be virtually no legal or normative constraints on testing weapons in space, meaning also that the very idea of peaceful prospects in outer space is endangered (West, Reference West2021). Countries continue to brazenly test ASAT capabilities – China in 2007, the USA in 2008, India in 2019, Russia in 2021 – and remain undeterred by the resulting orbital debris that can devastate both space assets and human operations indiscriminately. The ambiguities of dual-use space technologies also mask counterspace capabilities such as those tested openly by Japan, including ballistic missile defense (BMD) systems that can double up as ASAT weapons or long-duration spacecraft capable of shooting bullets into asteroid surfaces in the name of scientific missions (Pekkanen Reference Pekkanen, Dombrowski and Kelleher2015a: 223–224; Reference Pekkanen2020a).

These trends pose a significant threat to the stable, safe, and secure uses of space, and undermine the ‘right of access to space and freedom of navigation in space’ for all stakeholders (Sheehan, Reference Sheehan, Schrogl, Hays, Robinson, Moura and Giannopapa2015: 7–8). They are especially threatening to the world's most space-dependent power, the US, which accounted for over 60% of all operational satellites at the end of 2021 (UCS 2005[2021]). In a rivalrous world this dependence is concerning to the US. Hostile targeted actions against US space assets imperil the country's civilian, commercial, and military realities, and its great power status. US allies, like Japan, also then face the potential loss of extended nuclear deterrence. This is why singling out the stable uses of space is a top priority for Japan as well, because any such hostile actions threaten not just the security of its ally but also prospects for its own defense (Cabinet Office, 2019).

1.2 Geoeconomic realities

A geopolitical threat-based narrative is not the only driver of Japan's space strategy, however. And it would be a mistake to think that it is. The banner problem of orbital debris also helps to connect to the geoeconomic side of Japan's space strategy. The idea of geoeconomics draws attention to ‘the logic of war in the grammar of commerce,’ in which the causes as well as the instrument of conflict are economic, and in which states (or blocs of states) promote technological innovation not for its own sake but rather to maximize national benefits (Luttwak, Reference Luttwak1990: 18–19 [for quote], 21). These themes resonate widely in Japan's international political economy, drawing attention to the role of states and markets in industrial strategy, foreign economic policy, regional realities, and economic-security linkages (Johnson, Reference Johnson1982; Samuels, Reference Samuels1994; Heginbotham and Samuels, Reference Heginbotham and Samuels1998; Pekkanen, Reference Pekkanen2003; Katada, Reference Katada2020; Funabashi and Ikenberry, Reference Funabashi, John Ikenberry, Funabashi and John Ikenberry2020; Iida, Reference Iida, Pekkanen and Pekkanen2022). The Japanese state has of course been watchful of its industrial and commercial interests since the launch of its Pencil rocket in 1955 and its first satellite, Ohsumi, in 1970. But the geoeconomic lens also draws attention to both established and new private space actors, with a diverse portfolio of interests within Japan's boundaries that can advantage national defense.

Some of Japan's most well-known corporations have long been involved in shaping the twin pillars of the country's space industry, rockets and satellites. These include Mitsubishi Heavy Industries, Mitsubishi Electric, Ishikawajima-Harima Heavy Industries, and NEC to name a few (Pekkanen, Reference Pekkanen2003: 161–191; Pekkanen and Kallender-Umezu, Reference Pekkanen and Kallender-Umezu2010: 71–92; Pekkanen and Kallender-Umezu, Reference Pekkanen, Kallender-Umezu, Jain and Williams2011). These established space players have now been joined by a new generation of entrepreneurs intent on leaving their mark in some of the cutting-edge space technologies today (Pekkanen, Reference Pekkanen2020b: 29). These include, for example, Axelspace with microsatellite technologies for Earth observation, Synspective with synthetic-aperture radar satellites and geospatial data solutions, ispace with an eye on lunar water resources and exploration, and Astroscale focused on the problem of space debris removal.

All these businesses have visions of profits in a space economy projected to go from over $350 billion in 2018 to over a $1 trillion by the 2040s (Foust, Reference Foust2018). But as the long trajectory of Japan's commercial space aspirations shows, profits have a hard time materializing in the marketplace. As their products and services can be of service in defense of the homeland, all these private actors have economic incentives to push for national security projects. This is what they have done historically with BMD, for example. It is what they are doing also at present, with orbital debris, as another example. Orbital debris is not just orbital debris, defunct objects whizzing around at terrific speeds that can harm human missions and space assets (Pekkanen, Reference Pekkanen2018). Instead, it brings together commercial, civilian, and military objectives in a package that can be sold as a lethal environmental hazard.

For the Japanese state, as for others, having the dual-use technologies to clean debris up can also serve military purposes (Pekkanen, Reference Pekkanen2015b). The same technology that captures or zaps or drags away the debris can do the same to a functioning spacecraft. These realities may lead to ‘unintended consequences’ for deterrence and stability (Miller, Reference Miller2021: 1). More to the point for Japan, they lead to intended ambiguity for political redirections. Japan has historically downplayed the dual-use aspects of such space technologies, but it no longer shies away from doing just that. This is the biggest difference from the space pacifism Japan espoused for much of its postwar history. In other words, there is a clear recognition that

In the space domain military power is measured by the quantity and quality of a states' entire space infrastructure, from its launch capability to the number of satellites on orbit it can leverage to support military operations. It is more than a simple numerical comparison of explicitly flagged military satellites; it is a measure of how many space resources a nation leverages to support military operations. Since commercial capabilities in space can also be used for military purposes, more so than in any other domain, a degree of separation is necessary. Those space capabilities, explicitly military or nominally commercial, that a state uses in peacetime represent active military space power. Meanwhile, those non-military platforms that a nation could use for military purposes if it needed to represent readily available latent space power. With this differentiation in place, military space power can be measured based on total expenditures in space as well as on latent capabilities within a state's existing commercial architecture (Townsend, Reference Townsend2020: 31).

The national security space trends that we see emerging in Japan today are official, and sanctioned by the highest levels of political leadership. They are fueled by this fundamental reality. As it happens, economic and defense interests are also coinciding at a fortuitous time, when the Japanese state is proactively navigating its way through regional and global security concerns with its ally, the US.

2. Markers of collaboration

In this section, I use the geopolitical and geoeconomic framing above to discuss three observable ways that Japan is positioning its own interests under the rubric of the US–Japan alliance. Some of these are more visible than the rest, others have evolved over time, still others are works in progress. Together they give an interlinked overview of how and where Japan has steadily aligned its official space policies and postures with the US, but also kept a watchful eye on its own progress in the new civilian, commercial, and military space activities.

2.1 Formal and informal initiatives

First, at the broadest level, Japan has a standing formal dialogue with the US. It is true that Japan has a number of space-related agreements and memorandum of understandings (MOUs) with other countries and regions, notably the UK, France, India, and the European Union (MOFA, 2021b). But Japan's long-winding collaboration with the US in the space domain stands out at an official level, and deepens prospects for the bipolarity of space alliances in the contemporary world order (MOFA, 2021a). In 2011, the Security Consultative Committee (SCC) pointed to existing regional security challenges along with ‘evolving threats’ to strategic domains like outer space. Building on what they saw as their shared values, the two allies proclaimed that the sure way to meet the old and new challenges was to ‘strengthen Alliance capabilities by adapting our cooperation, modernizing our forces, enhancing interoperability, and cooperating in the development of new technologies’ (MOFA, 2011: 2). These aspirations have slowly and steadily been put into practice.

Since its inauguration in Tokyo in March 2013, a Japan–US Comprehensive Dialogue on Space has been taking place to advance whole-of-government approaches of strategic interest to both sides (MOFA, 2013). Billing themselves as two of the most advanced spacefaring nations, the primary objective of the US and Japan in their first meeting was to set up a ‘new initiative’ of wide-ranging scope between them. As the two allies continued to exchange views on technologies and themes of interest as expressed in their joint statements, they kept pace with the changing priorities and policies of space developments in both countries. Importantly, comparing the joint statements from the first to the seventh meeting of the Comprehensive Dialogue, there is a much clearer emphasis on fortifying the US–Japan alliance, and of using that as a basis for closely working with the international community to ensure the safety and security of outer space for present and future generations (MOFA, 2020).

The Comprehensive Dialogue also crisscrosses with other efforts, both those that preceded it formally and those that continue to interact with it informally. Between 2012 and 2018, for example, the US and Japan also carried out official exchanges related to the national security space field, involving high-level officials (MOFA, 2021a). The Comprehensive Dialogue is also fortified by the presence of informal networks and exchanges. Chief among them is the US–Japan Space Forum – a standing forum of space law and policy experts from the US and Japan – that has been running roughly parallel to the official Comprehensive Dialogue since 2014 under the auspices of the Maureen and Mike Mansfield Foundation (USJSF, 2022). It carries out informal academic and private sector exchanges on a consistent basis to foster and build understanding between the two countries.

Over time the broad initiative of the Comprehensive Dialogue has acquired specific depth and shape. Of significant note is the banner problem of orbital debris under which geostrategic and geoeconomic interests coincide as noted earlier. Already in their 2011 SCC joint statement, Japan and the US had pinpointed technology platforms for possible collaboration (MOFA, 2011: 9). These included a satellite navigation system, space-based maritime domain awareness, utilization of dual-use sensors, and of special relevance to orbital debris, space situational awareness (SSA). In 2013, Japan also signed an SSA Services and Informational Agreement with the USA (USDOS, 2013). Of note is the fact that the competent authority in the MOU is identified as the US Department of Defense, specifically US Strategic Command (USSTRATCOM) with the capabilities to provide SSA services and information in response to Japanese orbital data requests, including on-orbit information, such as conjunction assessments, collision avoidance, anomaly resolution, electromagnetic interference investigation, and so on (Article 2).

2.2 Domestic reconfiguration

Second, the SSA agreement draws attention to the far more specific ways Japan has steadily synchronized its civilian, commercial, and military uses of outer space, enabling further collaboration in the context of the US–Japan alliance. One indication of this is the Japanese participants named on the agreement. Along with other players on the Japan side, including the Cabinet Secretariat, MOD, MEXT, and MLIT, the Japan Aerospace Exploration Agency (JAXA) was named prominently as a participant. Since its formation in 2003, JAXA has earned a well-deserved reputation as a civilian science and technology powerhouse in Japan's space activities. Its expanding national security space collaboration with domestic and international partners is therefore quite remarkable, and has been enabled by a series of legal and policy shifts that have taken decades to come to fruition.

In 2008, Japan's Basic Space Law went into effect (GOJ, 2008; Aoki, Reference Aoki2009; Pekkanen and Kallender-Umezu, Reference Pekkanen and Kallender-Umezu2010: 245–248, Table 2.1, Appendix II; Fukushima, Reference Fukushima2017). The purpose of this law is simple, to expand and develop Japan's autonomous space capabilities in the face of changing external and internal conditions. Its ethos is consistent with the pacifism of the Japanese constitution, and with the spirit of other international treaties and agreements. But with Article 2 of the Basic Space Law, Japan changed its legal interpretation of peaceful purposes in outer space from ‘non-military’ to ‘non-aggressive’ in line with international understanding. In other words, Japan could engage in the full spectrum of civilian, commercial, and military space projects so long as they were not deemed aggressive or offensive. This interpretive change was consequential for Japan's space trajectories. Until then Japan had gone above and beyond international understandings to restrict Japanese space developments exclusively to peaceful purposes with a 1969 resolution (Aoki, Reference Aoki, Longsdon and Moltz2008: 59–61; Suzuki, Reference Suzuki and Schrogl2020). This resolution played well to the broader ‘culture of anti-militarism’ in postwar Japan (Berger, Reference Berger1993), which helped to downplay the dual-use realities of one of the worlds' most strategic sectors, and to keep debates about the militarization and weaponization of the basic space technologies out of sight.

The Basic Space Law soon reverberated across all of Japan's space policy establishment. In 2012, JAXA's basic law was explicitly revised so that the agency could engage in national security projects with, for example, the Ministry of Defense and other players (GOJ, 2012; Kyodo, 2012). Until then, JAXA too had been restricted to carrying out its academic, scientific, and technology activities only for peaceful purposes. With a small amendment to Article 4 of the JAXA law, the agency was henceforth required to bring its activities into conformity with the peaceful uses of outer space as stipulated by the Basic Space Law. Along with its other programs, this meant that JAXA could now also pursue national security space projects. In practice, no issue has been as central to legitimating JAXA's new national security orientations and partnerships as orbital debris. Earlier in 2009, Japan's MOD had identified a range of space-related capabilities of interest, and flagged the importance of coordinated national capabilities for SSA in order to monitor the space environment for all kinds of hazards, including space debris. It was forthright in how this would come about:

For space situational awareness and observation, a comprehensive and systematic initiative must be considered by the government as a whole, in a way that will also encompass the effective use of various capabilities possessed by the Ministry of Defense and the SDF, the Japan Aerospace Exploration Agency (JAXA), and other institutions, in order to ensure the safe and stable development and use of space in both the public and private sectors…the Ministry has been proactively promoting exchanges with other institutions in Japan that possess advanced technology in the civil and academic fields (MOD, 2009: 6–7).

A decade on, that coordination is becoming a reality. JAXA's leadership is on board with the agency's legal and cultural transformations, and is forthright about its new orientations as the ‘core implementing agency to support with its technology the entire governmental and development and utilization of space’ (Yamakawa, Reference Yamakawa2019b: 2). JAXA retains its focus on science and technology, and core technologies to be sure, all of which continue to enable autonomy, access to space, and next-generation technologies for Japan. But its new missions also include national security, with an emphasis on SSA, emergency monitoring, and early warning. The SSA framework, in particular, allows JAXA to cooperate with the Ministry of Defense, other ‘National Bodies’ of national security, as well as the US, by bringing its own technical prowess into the mix of national and allied capabilities (Yamakawa, Reference Yamakawa2019a: 2, 6). For space developments or activities, a safe, sustainable, and secure space environment is a prerequisite for any kind of civilian and military operations. A technological infrastructure that helps to bring it about connects back to the long-brewing SSA focus in the US–Japan alliance, dating back to the joint statement of the SCC in 2011 and continuing on in the Comprehensive Dialogues. Orbital debris, and the growing number of actors and assets, is also a way for Japan to engage in a growing policy concern for all spacefaring nations in the international community (Kobata, Reference Kobata2019).

Fortuitously, in Japan's domestic political marketplace, the new narrative of supporting safe and stable uses of space by countering threats such as space debris softens military space postures. It helps to deflect concerns about the deployment of dual-use space technologies, and about the expanding role of the Ministry of Defense in outer space activities in lockstep with other domestic players like JAXA and international allies like the US. After all, the new trends are only made possible with Japan's persistent indigenization of dual-use space technologies over the postwar period (Pekkanen and Kallender-Umezu, Reference Pekkanen and Kallender-Umezu2010; Kallender, Reference Kallender2016; Kallender and Hughes, Reference Kallender and Hughes2019; Fatton, Reference Fatton2020). Japan already has long-standing cooperation with the US on BMD, with its potential for offensive anti-satellite (ASAT) operations (Pekkanen and Kallender-Umezu, Reference Pekkanen and Kallender-Umezu2010: 180–194; Grego, Reference Grego2011; Hughes, Reference Hughes2013; Pekkanen, Reference Pekkanen, Dombrowski and Kelleher2015a). Japan has acquired and tested significant counterspace capabilities that double over from its civilian and scientific exploration missions, such as the Hayabusas, which can be an asset to its allies (Pekkanen, Reference Pekkanen2020a). Most recently, in answering calls for hosted payloads on allied satellites by US military leadership, Japan will be launching US sensors on Japan's QZSS satellites (Hitchens, Reference Hitchens2020).

Without much political backlash, the complicated tapestry of orbital debris has led to the normalization of Japan's military postures in outer space. It also frames other aspects of MOD's activities that link to space. In 2018, for example, the National Defense Program Guidelines stressed the importance of cross-domain operations between the traditional (land, sea, and air) and new (space, cyber, and electromagnetic) domains; it also made it clear that Japan sought to ‘ensure superiority in use of space at all stages from peacetime to armed contingencies [and that the] SDF will also work to strengthen capabilities including mission assurance capability and capability to disrupt opponent's command, control, communications and information’ (MOD, 2018: 19). MOD has also stepped up cooperation with Keidanren to ‘maintain and strengthen' Japan's defense capabilities, which will likely include space technologies (Kyodo, 2020).

The narrative of safety and security in the face of orbital debris gives concrete shape to calls from the US–Japan defense guidelines about the importance of ensuring the resiliency of space systems and building SSA cooperation (MOD, 2015: 21). New organizational pathways have also opened up fronts for collaboration between the US and Japan both in the context of space debris and space security more generally. They give a sense for how MOD will be proceeding. Japan stood up the Space Operations Squadron (SOS) in 2020, its own dedicated space force as part of the Air Self-Defense Force (JIJI, 2020; Pekkanen, Reference Pekkanen, Pekkanen and Pekkanen2022: 777). In 2022, Japan is poised to launch a new space unit to monitor electromagnetic threats to its satellites (Kyodo, 2021). All this is still a work in progress, especially in the context of the alliance. But it is clear that the United States Space Force (USSF), the SOS, and presumably the new unit will, over time, help develop the allies' technical and human expertise to operate together and align their strategies. While it may not be joining the Five Eyes, Japan will be part of a new Multinational Space Collaboration Office at Vandenberg air force base with the goal of aligning policies and TTPs (tactics, techniques, and procedures) (Hitchens, Reference Hitchens2021a). A Japanese liaison officer will also be part of the US Space Command, contributing to operational discussions (Erwin, Reference Erwin2021).

2.3 Civilian and commercial pathways

Finally, Japan has also aligned itself with US-led civilian and commercial lunar projects under the broader rubric of the US–Japan alliance. There are numerous building blocks going into place that will affect Japanese capabilities and presence from Low Earth Orbit (LEO) to outposts on celestial bodies like the moon and asteroids. As with other ventures, Japan's latest efforts build on a long solid history of collaboration with the US NASA in this case. This too has become an important asset for Japan in the politics of the unfolding space alliances.

In tracing the history of the International Space Station (ISS) project that kicked off in the early 1980s, the Japanese government deemed it necessary to participate; it set up a Task Force under the Space Development Committee, then a consultative body of the Prime Minister (JAXA, 1999). As Japan interacted with its counterparts in Europe, Canada, and the US in the conceptualization, design, and development of the project over roughly a 15 year period, the discussions helped flag a number of items of interest, such as material and life sciences experiment and especially satellite repair that can also play a role today in dealing with orbital debris. At that time as well there was a geopolitical context. Japan participated in the official decision to invite Russia to the ISS program as the cold war came to an end. At the final technical shape of the ISS project concluded, 15 partners including Japan signed the 1998 Intergovernmental Agreement (USDOS, 1998). Its overarching purpose was to ‘establish a long-term international cooperative framework among the Partners, on the basis of genuine partnership, for the detailed design, development, operation, and utilization of a permanently inhabited civil international space station for peaceful purposes, in accordance with international law’ (Article 1). In the annex to the Agreement, the partner countries identified the elements to be provided. Japan obligated itself to provide a user element (the Japanese Experiment Module with internal and external functions), flight elements to supply the space station, and ground elements uniquely for the space station. Japan delivered on all elements.

As of 2022, JAXA proclaims that Japan has the largest size of any of the modular components that make up the ISS, namely the Kibo (JEM) module that is used to carry out experiments in the unique microgravity environment for space; it is also Japan's first manned facility (JAXA, n.d.). Utilizing Kibo is an important drive for JAXA, and is demonstrated through experiments involving new drugs, aging, and space medicine that can be of benefit to Japanese society and humankind in general. Among the most notable utilization activities is the deployment of 276 small satellites as of April 2021. Another of Japan's contribution has been the Kounotori (HTV) cargo supply ships, which successfully carried out nine supply missions to the crews at ISS between 2009 and 2020. Over that time, it has also given Japan the foundations to build a more advanced cargo transfer spacecraft, the HTV-X, that is currently in development and is aimed at what will come after the ISS, both physically and politically (Bartels, Reference Bartels2020).

The search for a post-ISS strategy means that stakeholders have their eyes on the politics of developments in LEO and on the lunar surface. The emphasis on utilization, which is so prominent on JAXA's official website, draws attention to other provisions in the Basic Space Law that are of interest to the Japanese state and businesses (GOJ, 2008; Pekkanen and Kallender-Umezu, Reference Pekkanen and Kallender-Umezu2010: Appendix II). Article 3 calls for space development and utilization to improve the economic lives of the citizenry, and to safeguard them from threats to their survival such as from natural disasters. Further it also explicitly calls for contributions to international peace and security, along with national security. Read in conjunction with Article 4, this emphasis on economic-security linkages mandates that space development and utilization be carried out actively and systematically, and should also promote the technology and international competitiveness of Japanese industry.

This legality is manifesting in the way JAXA is out to assiduously position its technologies and astronauts in the emerging LEO and lunar competition of interest to governments and businesses (Foust, Reference Foust2021). Many companies are lured by the possibility of commercial frontiers, and some like Lockheed Martin and General Motors are thinking to transpose their Earthly capabilities into otherworldly ventures. Among them, there are also a range of well-known deep-pocketed Japanese automobile companies – such as Toyota out to conquer the ‘sixth continent’ of the moon – that have begun to focus on possibilities for transportation on the lunar surface in partnership with JAXA (Obe, Reference Obe2019). Relatively newer companies such as ispace also foresee settlements on the moon, and prospects for mining resources that can enable deep space exploration – a vision shared by JAXA scientists.

The result of long-duration collaborative enterprises with NASA and other international partners, and the backdrop of the US–Japan alliance, mean that JAXA has also made inroads into the new civilian–commercial landscape being set in motion by the US. In the new space realities, NASA has trumpeted the importance of launching American rockets from American soil (NASA, 2021a, 2021b). Of note is the fact that Japanese astronauts have been part of the first two commercial – and successful – crew missions by the private company SpaceX to the ISS. Japan has also signed up as a founding member to the US-led Artemis accords in 2020, designed to enhance civil exploration of the Moon, Mars, Comets, and asteroids for peaceful purposes through guidelines and best practices (Foust, Reference Foust2020). Japan and NASA have also concluded an agreement about Gateway, an outpost orbiting the moon to facilitate long-term human presence on the moon (Foust, Reference Foust2021). Notably, JAXA's budget will increase to about $500 million to support such missions (Park, Reference Park2021a).

There is little question that Japan has an eye on future Artemis and Gateway missions led by the USA, with their promise of economic prosperity. But how they unfold is shaped also by Japanese interest in space development and utilization as expressed in the Basic Space Law. Less well known but equally important is the fact that all this is playing out in a regional context. Here, Japan may further leverage its leadership of the long-standing Asia-Pacific Regional Space Agency Forum (APRSAF) to pursue allied interests with a wider set of partners, all of whom seek space technologies to advance socioeconomic development (Pekkanen, Reference Pekkanen2021a: 51–53). APRSAF is undoubtedly also energized by Japan's collaborative momentum with the US. Deftly, at the end of 2021, Japan's new prime minister proclaimed Japan's grand plan to not just embed the Japanese private sector in the lunar industrial landscape but to also put Japanese astronaut boots on the moon (Park, Reference Park2021b). As the prime minister put it, with an eye on audiences in both the US and beyond, Japan ‘will promote the Artemis project to perform manned activities on the moon, and in the late 2020s, we will try to realize the lunar landing of Japanese astronauts;' and the country's revised space policy roadmap plans for Japan to land the first non-American astronaut on the moon by the late 2020s.

3. Cautionary caveats

Japan has come a long way from the era of ritualized conflict in the 1980s during which its foreign minister could be forced to resign for even calling the US–Japan relation an alliance (Pharr, Reference Pharr and Curtis1993: 251). Today, it equates its national defense with a strong US–Japan alliance, including collaboration in new domains like space marked by both geopolitical and geoeconomic realities (Hayashi, Reference Hayashi2020). It is true that Japan is forging a common policy with the USA in the space domain, aligning its space policy and postures with the USA in significant ways. That collaboration manifests in a range of formal and informal initiatives that lead to shared understanding among principal stakeholders in both countries. It is rooted in the domestic reconfiguration of newer laws, policies, and organizations that enable Japan's unabashed proactivism in a dual-use industry. It is also evident in shared visions for prosperous lunar outposts and bases that are driving Japan to openly position for advantage.

Today we can meaningfully speak about a US–Japan space alliance going into place as Russia and especially China reshape competitive prospects in outer space (Davenport, Reference Davenport2021; Jones, Reference Jones2022). Beyond the alliance, the alignment of the USSF and the SOS may affect the possibilities of SSA collaboration with other QUAD members, Australia and India (Rajagopalan, Reference Rajagopalan2021). As SSA morphs into Space Domain Awareness, reflecting a shift away from space as a benign environment to a domain of warfare, the US–Japan alliance will likely keep pace (Erwin, Reference Erwin2019). The issue is not just attribution about aggression or instability in outer space, but also about national and allied responses. This means also paying attention to the enabling mechanisms that will allow Japan to respond. In 2014, the same Cabinet Decision that reinterpreted collective self-defense pointed also to potential impediments in utilizing and freely accessing outer space, cracking open the door to debates about the extension of collective self-defense to the space domain (GOJ, 2014). Mirroring affirmations about the scope of Article 5 of their security treat to cyberattacks, there may be a parallel explicit affirmation in the space domain in the future (JIJI, 2019).

All these markers bode well for the two long-standing allies amidgreat power competition that extends to dominance over cutting-edge technologies (Nye, Reference Nye2021). They help to build a picture of how the Japanese state is strategizing and adjusting in the face of incentives and threats in the space domain both in the short and foreseeable medium terms (Ripsman et al., Reference Ripsman, Taliaferro and Lobell2016: 80–90). But going beyond the prism of here and now what can we say about the gradual, accumulated, and less apparent systemic consequences of Japan's strategies and adjustments in the long run? I maintain that there are reasons to be cautious about thinking Japan is forever caught in the US orbit, which complicate any rosy and straightforward predictions about the alliance in shaping prospects for stability in the international system.

First, Japan, along with other US allies, has cause for concerns about the domestic polarization and external reliability of the USA (Pempel, Reference Pempel2020). It has to keep a wary eye on the political evolution and standing of its formal ally. Given the uncertain fate of US domestic politics that bears on great power competition, Japan is also prudently positioning for how the status of its ally may evolve in world politics (Solis, Reference Solis2020). There is much uncertainty about the policy positions of successive US administrations, including the importance of international allies and alliances in the fluid new space race. Given this context, Japan knows full well it must prudently watch out and position its own interests beyond the moment. Second, seeing Japan only as a stalwart ally of the US and a rival of China is problematic. Japan is economically integrated with China, has signed an economic pact with China, and has MOUs in place with China to potentially facilitate space infrastructure investment projects in the name of economic development and poverty reduction across Asia (Pekkanen, Reference Pekkanen2021b). If Japan can build a working alliance with a former foe from the past like the US, it can also do the same with other rivals in its own interests in the future. Finally, dependence on space assets in an offense-dominant environment is America's Achilles heel; its rivals know it and so do its allies like Japan (Griggs, Reference Griggs2018). Japan is nowhere near as space-dependent and this may affect its calculus in the year ahead about aligning with US threat narratives in space. Over time, this may also build fissures in finding consensus or building common policy positions across international forums.

All these uncertainties mean we should also keep an eye on other underpinnings of US–Japan alliance collaboration in and through space, including one emphasizing the net gains from necessary exchanges of resources in a domain where no actor is self-sufficient (Izumikawa, Reference Izumikawa2020: 15–16). Japan is not a junior partner to the USA in the space, and its quest for parity is unmistakable. It will matter how the two allies link economic gains in and through space to their broader security cooperation, and how this plays out in the contextual nuances of both domestic constraints and international politics (Davis, Reference Davis2008/09). All the way through, its friends and rivals would do well to remember that ‘Japan has its own strategy, and it won't necessarily be completely in line with the U.S.’ (Sakaguchi, Reference Sakaguchi2021). In other words, whether responding geopolitically or positioning geoeconomically in the new space race, the Japanese state will give primacy to its own interests.

Acknowledgments

For feedback and comments, I thank the participants at the Geoeconomics Workshop under the auspices of the University of California Berkeley and the UC Institute on Global Conflict and Cooperation (IGCC) at the University of California San Diego, especially Vinnie Aggarwal and Tai Ming Cheung. I also thank the participants and discussants at the 21st Century JPSI Manuscript workshop at Indiana University, especially Deirdre Martin, Maiko Ichihara, Adam Liff, Satoru Mori, and Andrew Oros. I also thank the editors and anonymous reviewers of JJPS.

References

Aliberti, M and Hadley, S (2020) Securing Japan: An Assessment of Japan's Strategy for Space, ESPI Report 74, Vienna, Austria: European Space Policy Institute (ESPI).Google Scholar
Aoki, S (2008) Japanese perspectives on space security. In Longsdon, JM and Moltz, JC (eds), Collective Security in Space: Asian Perspectives. Washington, DC: Space Policy Institute, The George Washington University, pp. 4766.Google Scholar
Aoki, S (2009) Current status and recent developments in Japan's National Space Law and its relevance to pacific rim space law and activities. Journal of Space Law 35, 363438.Google Scholar
Aoki, S (2011) The National Space Law of Japan: Basic Space Law and the Space Activities Act in the Making, 6th Eilene M. Galloway Symposium on Critical Issues in Space Law, 1 December 2011, Cosmos Club, Washington D.C. Available at http://www.iislweb.org/docs/2011_galloway/Aoki.pdf (accessed 2020/09/01).Google Scholar
Bartels, M (2020) The International Space Station Can't Last Forever, Space.com. Available at https://www.space.com/how-to-destroy-a-space-station-safely (accessed 2021/10/10).Google Scholar
Berger, TU (1993) From sword to chrysanthemum: Japan's culture of anti-militarism. International Security 17, 119150.CrossRefGoogle Scholar
Cabinet Office (CO, Government of Japan) (2019) Uchū Kūkan No Anteiteki Riyō e No Kyōi [Threats to the Stable Use of Outer Space], 33rd Space Security Subcommitee Meeting. Available at https://www8.cao.go.jp/space/comittee/27-anpo/anpo-dai33/siryou1-6-2.pdf (accessed 2020/12/01).Google Scholar
Chubb, A (2020/21) “PRC Assertiveness in the South China Sea: Measuring Continuity and Change 1970–2015.International Security, 45, 79121.Google Scholar
Colby, EA and Mitchell, WA (2020) “The Age of Great-Power Competition: How the Trump Administration Refashioned American Strategy.Foreign Affairs, 99, 118130.Google Scholar
Davenport, C (2021) Tensions with Russia are Now Spilling into Space, Complicating International Space Station Partnership, The Washington Post. Available at https://www.washingtonpost.com/technology/2021/12/21/us-russia-space-station-tension/ (accessed 2021/12/30).Google Scholar
Davis, C (2008/09) Linkage diplomacy: economic and security bargaining in the Anglo–Japanese alliance, 1902–23. International Security 33, 143179.Google Scholar
Erwin, S (2019) Air Force: SSA is No More; It's ‘Space Domain Awareness’, Spacenews. Available at https://spacenews.com/air-force-ssa-is-no-more-its-space-domain-awareness/ (accessed 2021/10/10).Google Scholar
Erwin, S (2021) Japanese Military Strengthens Ties with U.S. Space Command, Spacenews. Available at https://spacenews.com/japanese-military-strengthens-ties-with-u-s-space-command/ (accessed 2021/10/10).Google Scholar
Fatton, L (2020) Japan's space program: shifting away from ‘non-offensive’ purposes? Notes de l'Ifri: Asie Visions 115, 136.Google Scholar
Forum, USJSF (U.S.–Japan Space) (2022) U.S.–Japan Space Forum: Program Overview, Washington, DC, The Maureen and Mike Mansfield Foundation. Available at https://mansfieldfdn.org/program/advancing-policy-through-working-groups/u-s-japan-space-forum/ (accessed 2022/01/07).Google Scholar
Foust, J (2018) (5 Jul) “A Trillion-Dollar Space Industry Will Require New Markets,” SpaceNews, Available at https://spacenews.com/a-trillion-dollar-space-industry-will-require-new-markets/Google Scholar
Foust, J (2020) Eight Countries Sign Artemis Accords, Spacenews. Available at https://spacenews.com/eight-countries-sign-artemis-accords/ (2020/11/01).Google Scholar
Foust, J (2021) (13 Jan) “NASA and Japan Finalize Gateway Agreement,” SpaceNnews, Available at https://spacenews.com/nasa-and-japan-finalize-gateway-agreement/.Google Scholar
Fukushima, Y (2017) Nihon No Bōei Uch Riyō: Uchū Kihon Hō Seiritsu Zengo Keizokuse to Henka [Japan's Use of Space for Defense: Continuity and Change before and after the Basic Space Law], Briefing Memo, National Institute of Defense Studies (NIDS), March 2017, 16. Available at http://www.nids.mod.go.jp/publication/briefing/pdf/2017/201703.pdf.Google Scholar
Funabashi, Y and John Ikenberry, G (2020) Introduction: Japan and the liberal international order. In Funabashi, Y and John Ikenberry, G (eds), The Crisis of Liberal Internationalism: Japan and the World Order. Washington, DC: Brookings Institution Press, pp. 135.Google Scholar
Gale, A and Tsuneoka, C (2021) As China–Taiwan tensions rise, Japan begins preparing for possible conflict. The Wall Street Journal. Available at https://www.wsj.com/articles/as-china-taiwan-tensions-rise-japan-begins-preparing-for-possible-conflict-11630067601 (accessed 2021/00/01).Google Scholar
Garamone, J (2019) Dunford Describes U.S. Great Power Competition with Russia, China, News, U.S. Department of Defense. Available at https://www.defense.gov/News/News-Stories/Article/Article/1791811/dunford-describes-us-great-power-competition-with-russia-china/ (accessed 2021/07/02).Google Scholar
GOJ (Government of Japan) (2008) Uchū Kihon Hō [Basic Space Law], Tokyo, GOJ. Available at https://elaws.e-gov.go.jp/ (accessed 2021/10/10).Google Scholar
GOJ (Government of Japan) (2012) Kokuritsu Kenkyū Kaihatu Hōjin Uchū Kōkū Kenkyū Kaihatsu Kikō Hō [Law Concerning Japan Aerospace Exploration Agency], Tokyo, GOJ [2002 Law revised 2012]. Available at https://elaws.e-gov.go.jp/ (accessed 2021/10/10).Google Scholar
GOJ (Government of Japan) (2014) Cabinet Decision on Development of Seamless Security Legislation to Ensure Japan's Survival and Protect Its People, Cabinet Secretariat, Tokyo. Available at http://www.cas.go.jp/jp/gaiyou/jimu/pdf/anpohosei_eng.pdf (accessed 2021/10/01).Google Scholar
GOJ (Government of Japan) (2021) Sōri No Ichinichi [Prime Minister's Day]: Uchū Kaihatsu Senryaku Honbu. Available at https://www.kantei.go.jp/jp/101_kishida/actions/202112/28space.html (accessed 2022/01/01).Google Scholar
Green, MJ (2010) Redefining and reaffirming the U.S.–Japan alliance. Asia Policy 10, 1620.Google Scholar
Grego, L (2011) The Anti-Satellite Capability of the Phased Adaptive Approach Missile Defense System, Public Interest Report, Federation of American Scientists, 16. Available at https://fas.org/pubs/pir/2011winter/2011Winter-Anti-Satellite.pdf (accessed 2020/02/29).Google Scholar
Griggs, MB (2018) (9 Aug) “Trump's Space Force Aims to Create ‘American Dominance in Space’ by 2020,” Popular Mechanics, Available at https://www.popsci.com/space-force-2020/.Google Scholar
Hayashi, T (2020) Towards an Even Stronger Japan–US Alliance, Policy Memo, Hudson Institute, Washington DC. Available at https://www.hudson.org/research/16513-towards-an-even-stronger-japan-us-alliance (accessed 2021/10/10).Google Scholar
Heginbotham, E and Samuels, RJ (1998) Mercantile realism and Japanese foreign policy. International Security 22, 171203.Google Scholar
Hitchens, T (2020) Air Force Funds Hosted Payloads on Japan Sats, Breaking Defense. Available at https://breakingdefense.com/2020/02/air-force-funds-hosted-payloads-on-japan-sats/ (accessed 2021/10/01).Google Scholar
Hitchens, T (2021a) Spacecom to Tighten Ties to Japan, Breaking Defense. Available at https://breakingdefense.com/2021/03/spacecom-to-tighten-ties-to-japan/ (accessed 2021/10/21).Google Scholar
Hitchens, T (2021b) Hypersonic Space Test Fuels Sino-American Arms Race, Breaking Defense, Available at https://breakingdefense.com/2021/10/hypersonic-space-test-fuels-sino-american-arms-race/ (accessed 2021/11/11).Google Scholar
Hughes, CW (2013) “Japan, Ballistic Missile Defense and Remilitarisation.Space Policy, 29(2), 128134.Google Scholar
Iida, K (2022) Linkages between security and economics in Japan. In Pekkanen, RJ and Pekkanen, SM (eds), The Oxford Handbook of Japanese Politics. New York, NY: Oxford University Press, pp. 663678.Google Scholar
Izumikawa, Y (2010) Explaining Japanese antimilitarism: normative and realist constraints on Japan's security policy. International Security 35, 123160.Google Scholar
Izumikawa, Y (2020) Network connections and the emergence of the hub-and-spokes alliance system in East Asia. International Security 45, 750.Google Scholar
JAXA (Japan Aerospace Exploration Agency) (1999) International Space Station (ISS) and Japanese Experiment Module ‘Kibo’: History of the ISS Project. Available at https://iss.jaxa.jp/iss/history/index_e.html (accessed 2020/03/05).Google Scholar
JAXA (Japan Aerospace Exploration Agency) (n.d.) JAXA Official Website, Tokyo, JAXA, Official website for all background and information on technologies, initiatives, laws, policies, etc. related to historical and contemporary JAXA activities as of the access date. Available at https://www.jaxa.jp/ (accessed 2022/01/09).Google Scholar
JIJI (2019) U.S. To Defend Japan from Cyberattack under Security Pact, The Japan Times. Available at https://www.japantimes.co.jp/news/2019/04/20/national/politics-diplomacy/first-japan-u-s-say-security-treaty-cover-cyberattacks/ (accessed 2021/10/01).Google Scholar
JIJI (2020) Japan Launches New Squadron to Step up Defense in Outer Space, The Japan Times. Available at https://www.japantimes.co.jp/news/2020/05/18/national/sdf-launches-space-operations-unit/ (accessed 2020/09/15).Google Scholar
Johnson, C (1982) Miti and the Japanese Miracle: The Growth of Industrial Policy, 1925–1975. Stanford, CA: Stanford University Press.Google Scholar
Jones, A (2022) China Aims to Complete Space Station in Another Huge Year in Space, Spacenews. Available at https://spacenews.com/china-aims-to-complete-space-station-in-another-huge-year-in-space/ (accessed 2022/01/05).Google Scholar
Kallender, P (2016) Japan's new dual-use space policy: the long road to the 21st century. Notes de l'Ifrie: Asie Visions 88, 137.Google Scholar
Kallender, P and Hughes, CW (2019) Hiding in plain sight? Japan's militarization of space and challenges to the Yoshida doctrine. Asian Security 15, 180204.Google Scholar
Katada, SN (2020) Japan's New Regional Reality: Geoeconomic Strategy in the Asia-Pacific. New York, NY: Columbia University Press.Google Scholar
Katzenstein, PJ (1998) Cultural Norms and National Security: Police and Military in Postwar Japan. Ithaca, NY: Cornell University Press.Google Scholar
Khan, SW (2021) Wolf Warrior Killed China's Grand Strategy, Foreign Policy. Available at https://foreignpolicy.com/2021/05/28/china-grand-strategy-wolf-warrior-nationalism/ (accessed 2021/09/01).Google Scholar
Kobata, K (2019) JAXA's Activities on Ensuring Stable Use of Outer Space, JAXA presentation, The 58th session of the Legal Subcommittee of the Committee on the Peaceful Uses of Outer Space. Available at https://www.unoosa.org/documents/pdf/copuos/lsc/2019/tech-02E.pdf (accessed 2021/09/01).Google Scholar
Komine, Y (2017) Negotiating the U.S.-Japan Alliance: Japan Confidential. New York, NY: Routledge.Google Scholar
Krauss, E (2022) Japan–US relations: the most important bilateral relationship in the world. In Pekkanen, RJ and Pekkanen, SM (eds), The Oxford Handbook of Japanese Politics. New York, NY: Oxford University Press, 811831.Google Scholar
Krauss, ES and Pempel, TJ (eds) (2004) Beyond Bilateralism: U.S.–Japan Relations in the New Asia Pacific. Stanford, CA: Stanford University Press.Google Scholar
Kyodo, (2022) Taiwan's President Urges Beijing to Abandon ‘Military Adventurism’, Kyodo News. Available at https://english.kyodonews.net/news/2022/01/c6c0bb8afc82-taiwans-president-urges-beijing-to-abandon-military-adventurism.html?phrase=octopus&words= (accessed 2022/01/01).Google Scholar
Kyodo (2012) JAXA to Get National Security Role; NASA Password Leaked, The Japan Times. Available at https://www.japantimes.co.jp/news/2012/01/15/national/jaxa-to-get-national-security-role-nasa-password-leaked/ (accessed 2020/03/06).Google Scholar
Kyodo (2020) Defense Ministry to Team up with Keidanren to Promote Arms Exports, The Japan Times. Available at https://www.japantimes.co.jp/news/2020/12/19/national/defense-ministry-keidanren-arms-exports/ (accessed 2020/12/19).Google Scholar
Kyodo (2021) Japan to Launch Second Outer Space Operations Unit in Fiscal 2022, Nikkei Asia. Available at https://asia.nikkei.com/Politics/Japan-to-launch-second-outer-space-operations-unit-in-fiscal-2022 (2021/12/10).Google Scholar
Liff, A (2021) Japan, Taiwan, the United States, and the ‘free and open indo-pacific’. In Denmark, AM and Myers, L (eds), Essays on the Rise of China and Its Implications. Washington, DC: Wilson Center, pp. 271299.Google Scholar
Lobell, SE, Ripsman, NM and Taliaferro, JW (eds) (2009) Neoclassical Realism, the State, and Foreign Policy. New York, NY: Cambridge University Press.Google Scholar
Luttwak, EN (1990) From geopolitics to geo-economics: logic of conflict, grammar of commerce. The National Interest 20, 1723.Google Scholar
Maher, R (2018) Bipolarity and the future of U.S.–China relations. Political Science Quarterly 133, 497525.Google Scholar
Martin, D (2015) Militarizing Space: Evaluating Competing Explanations, paper presented at the ISA Annual Conference, New Orleans, 19 February 2015.Google Scholar
Martin, DQ (2021) “Quiet Acquisition: The Politics of Justification in Military Capability Trajectories” Dissertation, Department of Political Science, University of California Berkeley.Google Scholar
Matsuoka, M (2018) Hegemony and the US–Japan Alliance. New York, NY: Routledge.Google Scholar
Michishita, N (2022) Japan's grand strategy for a free and open indo-pacific. In Pekkanen, RJ and Pekkanen, SM (eds), The Oxford Handbook of Japanese Politics. New York, NY: Oxford University Press, pp. 493513.Google Scholar
Midford, P (2020) Overcoming Isolationism: Japan's Leadership in East Asian Security Multilateralism. Stanford, CA: Stanford University Press.Google Scholar
Miller, GD (2021) Deterrence by debris: the downside to cleaning up space. Space Policy 58, 16.Google Scholar
MOD (Ministry of Defense, Japan) (2009) Basic Guidelines for Space Development and Use of Space, Committee on Promotion of Space Development and Use, Ministry of Defense of Japan, pp. 112.Google Scholar
MOD (Ministry of Defense, Japan) (2015) The Guidelines for Japan–U.S. Defense Cooperation, Tokyo, MOD. Available at https://warp.da.ndl.go.jp/info:ndljp/pid/11591426/www.mod.go.jp/e/d_act/us/anpo/pdf/shishin_20150427e.pdf (accessed 2020/03/20).Google Scholar
MOD (Ministry of Defense, Japan) (2018) Heisei 31 Ikō Ni Kakaru Bōei Keikaku No Taikō [National Defense Program Guidelines for 2019 and Beyond], MOD, Tokyo. Available at https://www.mod.go.jp/j/approach/agenda/guideline/pdf/20181218.pdf (accessed 2021/10/01).Google Scholar
MOFA, Ministry of Foreign Affairs (Japan) (2011) Joint Statement of the Security Consultative Committee – toward a Deeper and Broader U.S.–Japan Alliance: Building on 50 Years of Partnership – by Secretary of State Clinton, Secretary of Defense Gates, Minister for Foreign Affairs Matsumoto, and Minister of Defense Kitazawa, Tokyo, MOFA. Available at https://www.mofa.go.jp/region/n-america/us/security/pdfs/joint1106_01.pdf (accessed 2021/10/10).Google Scholar
MOFA (Ministry of Foreign Affairs, Japan) (2013) Kyōdō Seimei – Uchū Ni Kan Suru Hōkatsuteki Nichibei Taiwa Dai Ikkai Kaigō [Joint Statement – the First Meeting of the Japan–U.S. Comprehensive Dialogue on Space], Tokyo, MOFA. Available at https://www.mofa.go.jp/mofaj/files/000001830.pdf (accessed 2021/10/10).Google Scholar
MOFA (Ministry of Foreign Affairs, Japan) (2020) Kyōdō Seimei – Uchū Ni Kan Suru Hōkatsuteki Nichibei Taiwa Dai Shichi Kaigō [Joint Statement – the Seventh Meeting of the Japan–U.S. Comprehensive Dialogue on Space], Tokyo, MOFA. Available at https://www.mofa.go.jp/mofaj/files/100087505.pdf (accessed 2021/10/10).Google Scholar
MOFA (Ministry of Foreign Affairs, Japan) (2021a) Uchū: Nichibei Uchū Kyōryoku [Space: US–Japan Space Cooperation], Tokyo, MOFA. Available at https://www.mofa.go.jp/mofaj/gaiko/space/j_us.html (accessed 2022/01/07).Google Scholar
MOFA (Ministry of Foreign Affairs, Japan) (2021b) Uchū: Kokusai Uchū Kyōryoku [Space: International Space Cooperation], Tokyo, MOFA. Available at https://www.mofa.go.jp/mofaj/gaiko/space/index.html (accessed 2021/10/10).Google Scholar
Moltz, JC (2012) Asia's Space Race: National Motivations, Regional Rivalries, and International Risks. New York, NY: Columbia University Press.Google Scholar
NASA (2021a) NASA, SpaceX to Launch Second Commercial Crew Rotation Mission to International Space Station, Feature. Available at https://www.nasa.gov/feature/nasa-spacex-to-launch-second-commercial-crew-rotation-mission-to-international-space-station (accessed 2021/10/01).Google Scholar
NASA (2021b) Crew-1 Astronauts Safely Splash Down after Space Station Mission, Press Release 21-049. Available at https://www.nasa.gov/press-release/crew-1-astronauts-safely-splash-down-after-space-station-mission (accessed 2021/10/01).Google Scholar
Nish, IH (2012) The Anglo–Japanese Alliance: The Diplomacy of Two Island Empires, 1894–1907. London, UK: Bloomsbury.Google Scholar
Nye, J (2021) What Really Matters in the Sino–American Competition?, Project Syndicate. Available at https://www2.project-syndicate.org/commentary/us-china-competition-technology-alliances-by-joseph-s-nye-2021-12?barrier=accesspaylog (accessed 2021/12/20).Google Scholar
Obe, M (2019) Toyota Shoots for the Moon with Lunar Rover Plans, Nikkei Asia. Available at https://asia.nikkei.com/Business/Toyota-shoots-for-the-moon-with-lunar-rover-plans (accessed 2021/10/10).Google Scholar
Oros, AL (2007) Explaining Japan's tortured course to surveillance satellites. Review of Policy Research 24, 2948.Google Scholar
Oros, AL (2008) Normalizing Japan: Politics, Identity, and the Evolution of Security Practice. Stanford, CA: Stanford University Press.Google Scholar
Oros, AL (2017) Japan's Security Renaissance: New Policies and Politics for the Twenty-First Century. New York, NY: Columbia University Press.Google Scholar
O'Rourke, R (2021) Renewed Great Power Competition: Implications for Defense – Issues for Congress, Washington, DC: CRS Report R43838. Available at https://crsreports.congress.gov/product/pdf/R/R43838 (accessed 2021/05/23).Google Scholar
Park, S (2021a) Japan Budgets a Record $4.14 Billion for Space Activities, SpaceNews. Available at https://spacenews.com/japan-budgets-a-record-4-14-billion-for-space-activities/ (accessed 2021/03/15).Google Scholar
Park, S (2021b) Japan Wants a JAXA Astronaut to be First ‘Non-American’ to Join a NASA Lunar Landing, SpaceNews. Available at https://spacenews.com/japan-wants-jaxa-astronaut-to-be-first-non-american-to-join-a-nasa-lunar-landing/ (accessed 2022/01/03).Google Scholar
Pekkanen, SM (2003) Picking Winners? From Technology Catch-up to the Space Race in Japan. Stanford, CA: Stanford University Press.Google Scholar
Pekkanen, SM (2015a) Japan's ballistic missile defense and ‘proactive pacifism’. In Dombrowski, P and Kelleher, C (eds), Regional Missile Defense From A Global Perspective. Stanford, CA: Stanford University Press, pp. 217237.Google Scholar
Pekkanen, SM (2015b) Space Debris Provides Convenient Cover for Japan's Military Space Ambitions, Forbes. Available at https://www.forbes.com/sites/saadiampekkanen/2015/07/28/space-debris-provides-convenient-cover-for-japans-military-space-ambitions/#2a37e1c84521 (accessed 2020/04/02).Google Scholar
Pekkanen, SM (2017) China's Ambitions Fly High: ‘One Belt, One Road’ to Extend into Space, Forbes. Available at https://www.forbes.com/sites/saadiampekkanen/2017/05/26/chinas-ambitions-fly-high-one-belt-one-road-to-extend-into-space/?sh=1934062a4c0c (accessed 2021/10/10).Google Scholar
Pekkanen, SM (2018) Why Space Debris Cleanup Might Be a National Security Threat, The Conversation. Available at https://theconversation.com/why-space-debris-cleanup-might-be-a-national-security-threat-105816 (accessed 2020/11/09).Google Scholar
Pekkanen, SM (2019) Governing the new space race. American Journal of International Law Unbound 113, 9297. Available at https://www.cambridge.org/core/journals/american-journal-of-international-law/article/governing-the-new-space-race/14BD9B37A7A15A8E225A5355BB29E51B (accessed 2020/02/09).Google Scholar
Pekkanen, SM (2020a) Thank You for Your Service: The Security Implications of Japan's Counterspace Capabilities, Texas National Security Review, Roundtable. Available at https://tnsr.org/roundtable/policy-roundtable-the-future-of-japanese-security-and-defense/ (accessed 2020/10/01).Google Scholar
Pekkanen, SM (2020b) Japan's space power. Asia Policy 15, 2733.CrossRefGoogle Scholar
Pekkanen, SM (2021a) China, Japan, and the governance of space: prospects for competition and cooperation. International Relations of the Asia-Pacific 21, 3764.Google Scholar
Pekkanen, SM (2021b) Cautionary Remarks on the Emerging Bipolarity of Space Alliances: A Japanese Perspective, in The New Space Age: Beyond Global Order, Perry World House, University of Pennsylvania, Fall 2021. Available at https://global.upenn.edu/sites/default/files/perry-world-house/Pekkanen_SpaceWorkshop.pdf (accessed 2021/12/07).Google Scholar
Pekkanen, SM (2022) Neoclassical realism in Japan's space security. In Pekkanen, RJ and Pekkanen, SM (eds), The Oxford Handbook of Japanese Politics. New York, NY: Oxford University Press, pp. 763790.Google Scholar
Pekkanen, SM (forthcoming) Unbundling threats: balancing and alliances in the space domain. In Pekkanen, SM and Blount, PJ (eds), The Oxford Handbook of Space Security. New York, NY: Oxford University Press, under contract.Google Scholar
Pekkanen, SM and Kallender-Umezu, P (2010) In Defense of Japan: From the Market to the Military in Space Policy. Stanford, CA: Stanford University Press.Google Scholar
Pekkanen, SM and Kallender-Umezu, P (2011) National security in Japan's space policy. In Jain, P and Williams, B (eds), Japan in Decline: Fact or Fiction? Kent, UK: Global Oriental, pp. 92109.Google Scholar
Pharr, SJ (1993) Japan's defensive foreign policy and the politics of burden sharing. In Curtis, GL (ed.), Japan's Foreign Policy after the Cold War: Coping with Change. Armonk, NY: M.E. Sharpe, pp. 233262.Google Scholar
Pollpeter, K (2020) China's space program: making China strong, rich, and respected. Asia Policy 15, 1218.Google Scholar
Pollpeter, K, Ditter, T, Miller, A and Waidelich, B (2020) China's Space Narrative: Examining the Portrayal of the US–China Relationship in Chinese Sources and Its Implications for the United States, Washington, DC: China Aerospace Studies Institute (CASI), CAN. Available at https://www.airuniversity.af.edu/Portals/10/CASI/Conference-2020/CASI%20Conference%20China%20Space%20Narrative.pdf?ver=FGoQ8Wm2DypB4FaZDWuNTQ%3D%3D (accessed 2021/12/07).Google Scholar
Pyle, KB (2007) Japan Rising: The Resurgence of Japanese Power and Purpose. New York, NY: PublicAffairs.Google Scholar
Rajagopalan, RP (2021) India's Space Cooperation with the US – and the QUAD – Intensifies, The Diplomat. Available at https://thediplomat.com/2021/03/indias-space-cooperation-with-the-us-and-the-quad-intensifies/ (accessed 2021/10/01).Google Scholar
Ripsman, NM, Taliaferro, JW and Lobell, SE (2016) Neoclassical Realist Theory of International Politics. New York, NY: Oxford University Press.CrossRefGoogle Scholar
Rose, G (1998) Neoclassical realism and theories of foreign policy. World Politics 51, 144172.Google Scholar
Sakaki, A, Maull, HW, Lukner, K, Krauss, ES and Berger, TU (2020) Reluctant Warriors: Germany, Japan, and Their U.S. Alliance Dilemma. Washington, DC: Brookings Institution Press.Google Scholar
Samuels, RJ (1994) ‘Rich Nation, Strong Army’: National Security and the Technological Transformation of Japan. Ithaca, NY: Cornell University Press.Google Scholar
Samuels, RJ (2007) Securing Japan: Tokyo's Grand Strategy and the Future of East Asia. Ithaca, NY: Cornell University Press.Google Scholar
Sato, T (2020) The Case for US–Japan Space Cooperation in the Indo-Pacific, The Diplomat. Available at https://thediplomat.com/2020/06/the-case-for-us-japan-space-cooperation-in-the-indo-pacific/?fbclid=IwAR0tdGV8mReuj5aANu1VgdwdS4x33HO-6_5DlJIzCeEMxnhDZJXOFDGfstQ (accessed 2021/10/10).Google Scholar
Sevastopulo, D and Hille, K (2021) China Tests New Space Capability with Hypersonic Missile, Financial Times. Available at https://www.ft.com/content/ba0a3cde-719b-4040-93cb-a486e1f843fb (accessed 20201/10/21).Google Scholar
Sheehan, M (2015) Defining space security. In Schrogl, K-U, Hays, PL, Robinson, J, Moura, D and Giannopapa, C (eds), Handbook of Space Security: Policies, Applications and Programs (Vol. 1). New York, NY: Springer Reference, pp. 721.Google Scholar
Smith, S (2019) Japan Rearmed: The Politics of Military Power. Cambridge, MA: Harvard University Press.Google Scholar
Solis, M (2020) The underappreciated power: Japan after Abe. Foreign Affairs 99, 123132.Google Scholar
Suzuki, K (2015) Space security in Japan. In Schrogl, K-U, Hays, PL, Robinson, J, Moura, D and Giannopapa, C (eds), Handbook of Space Security: Policies, Applications, Programs. New York, NY: Springer Reference, pp. 397412.Google Scholar
Suzuki, K (2020) Historical evolution of Japanese space security. In Schrogl, K-U (ed.), The Handbook of Space Security. Switzerland: Springer Nature Switzerland, pp. 115. https://doi.org/10.1007/978-3-030-22786-9_15-6.Google Scholar
Tellis, A (2007) China's military space strategy. Survival 49, 4172.Google Scholar
Townsend, B (2020) Security and Stability in the New Space Age: The Orbital Security Dilemma. New York, NY: Routledge.CrossRefGoogle Scholar
Tunsjø, Ø (2018) The Return of Bipolarity in World Politics: China, the United States, and Geostructural Realism. New York, NY: Columbia University Press.Google Scholar
Tunsjø, Ø (2020) The New US–China Superpower Rivalry, East Asia Forum. Available at https://www.eastasiaforum.org/2020/04/04/the-new-us-china-superpower-rivalry/ (accessed 2021/06/20).Google Scholar
UCS (Union of Concerned Scientists) (2005 [2021]) UCS Satellite Database, Latest data update 1 September 2021. Available at https://www.ucsusa.org/resources/satellite-database (accessed 2022/01/01).Google Scholar
USDOS (United States Department of State) (1998) (29 Jan) “Space Station: Agreement Between the United States of America and Other Governments with Annex and Arrangement Between the United States of America and Other Governments,” Signed at Washington January 29, 1998, Available at https://www.state.gov/wp-content/uploads/2019/02/12927-Multilateral-Space-Space-Station-1.29.1998.pdf (accessed 2021/10/10).Google Scholar
USDOS (United States Department of State) (2013) Space Cooperation: Space Situational Awareness Services and Information – Agreement between the United States of America and Japan, Effected by Exchange of Notes at Tokyo May 28, 2013 with Memorandum of Understanding, Washington DC, US Dept. of State, Treaties and Other International Acts Series, 13528. Available at https://2009-2017.state.gov/documents/organization/219765.pdf (accessed 2021/10/01).Google Scholar
Vergun, D (2019) Multidomain Operations Rely on Partnerships to Succeed, News, U.S. Department of Defense. Available at https://www.defense.gov/News/News-Stories/Article/Article/1755520/multidomain-operations-rely-on-partnerships-to-succeed/ (accessed 2021/12/07).Google Scholar
Vosse, W and Midford, P (eds) (2018) Japan's New Security Partnerships: Beyond the Security Alliance. Manchester, UK: Manchester University Press.Google Scholar
Wang, D (2021) Reluctant rival: Beijing's approach to US–China competition. Global Asia 16, 814.Google Scholar
West, J (2021) A Weapons Test is the Wrong Way to Advance Norms on Responsible Behavior in Space, Breaking Defense. Available at https://breakingdefense.com/2021/08/a-weapons-test-is-the-wrong-way-to-advance-norms-on-responsible-behavior-in-space/ (accessed 2021/09/01).Google Scholar
Wilson, RS (2020) Japan's gradual shift toward space security. In Center for Space Policy and Strategy. El Segundo, CA: The Aerospace Corporation, pp. 118. Available at https://csps.aerospace.org/sites/default/files/2021-08/Wilson_JapansGradualShift_20200512.pdf (accessed 2021/10/10).Google Scholar
Wohlforth, WC (2008) Realism. In Reus-Smit, C and Snidal, D (eds), The Oxford Handbook of International Relations. New York, NY: Oxford University Press, pp. 131149.Google Scholar
Yamakawa, H (2019a) JAXA's Activities on Ensuring Stable Use of Outer Space, JAXA President, International Symposium on Ensuring Stable Use of Outer Space, Tokyo. Available at http://www.jsforum.or.jp/stableuse/2019/pdf/10_190228-SSA_JAXA_Hiroshi%20Yamakawa.pdf (accessed 2020/12/01).Google Scholar
Yamakawa, H (2019b) JAXA No Torikumi Ni Tsuite [JAXA's Activities], Tokyo, DESI Japan. Available at https://www.dsei-japan.com/jp/speakers/%E5%B1%B1%E5%B7%9D-%E5%AE%8F-mr-hiroshi-yamakawa (accessed 2021/10/10).Google Scholar
Zhang, K (2019) “Cautious Bully: Reputation, Resolve, and Beijing's Use of Coercion in the South China Sea.International Security, 44(1), 117159.Google Scholar
Zhao, S (2021) (14 Oct) “Moving Beyond the US-China Cold War Cliche,” East Asia Forum, Available at https://www.eastasiaforum.org/2021/10/14/moving-beyond-the-us-china-cold-war-cliche/Google Scholar
Zhao, S (2022) “The US-China Rivalry in the Emerging Bipolar World: Hostility, Alignment, and Power Balance.Journal of Contemporary China, 31(134), 169185.Google Scholar
Zakaria, F (1992) Realism and domestic politics: a review essay. International Security 17, 177198.CrossRefGoogle Scholar