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Bibliography

Published online by Cambridge University Press:  05 July 2017

Volker Schomerus
Volker Schomerus
Affiliation:
Deutsches Elektronen-Sychrotron (DESY) Hamburg
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A Primer on String Theory , pp. 217 - 220
Publisher: Cambridge University Press
Print publication year: 2017

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References

[1] M., Ammon and J., Erdmenger. Gauge/gravity Duality. Cambridge University Press, 2015.
[2] G., Arutyunov. Lectures on String Theory. 2009. Utrecht University.
[3] G., Arutyunov and S., Frolov. Foundations of the AdS 5× S5 superstring. Part I. J. Phys., A42:254003, 2009.Google Scholar
[4] J., Bartels, V., Schomerus, and M., Sprenger. The Bethe roots of Regge cuts in strongly coupled N=4 SYM theory. JHEP, 07:098, 2015.Google Scholar
[5] B., Basso, S., Caron-Huot, and A., Sever. Adjoint BFKL at finite coupling: a short-cut from the collinear limit. JHEP, 01:027, 2015.Google Scholar
[6] K., Becker, M., Becker, and J.H., Schwarz. String Theory and M-Theory: A Modern Introduction. Cambridge University Press, 2006.
[7] N., Beisert, B., Eden, and M., Staudacher. Transcendentality and crossing. J. Stat. Mech., 0701:P01021, 2007.Google Scholar
[8] N., Beisert et al. Review of AdS/CFT integrability: an overview. Lett. Math. Phys., 99:3–32, 2012.Google Scholar
[9] A.A., Belavin, A.M., Polyakov, and A.B., Zamolodchikov. Infinite conformal symmetry in two-dimensional quantum field theory. Nucl. Phys., B241:333–380, 1984.Google Scholar
[10] H., Bethe. On the theory of metals. 1. Eigenvalues and eigenfunctions for the linear atomic chain. Z. Phys., 71:205–226, 1931.Google Scholar
[11] V., Bouchard. Lectures on Complex Geometry, Calabi-Yau Manifolds and Toric Geometry. 2007.
[12] L., Brink, P. Di, Vecchia, and P.S., Howe. A locally supersymmetric and reparametrization invariant action for the spinning string. Phys. Lett., B65:471–474, 1976.Google Scholar
[13] R.C., Brower and K.A., Friedman. Spectrum generating algebra and no ghost theorem for the Neveu-Schwarz model. Phys. Rev., D7:535–539, 1973.Google Scholar
[14] R.C., Brower. Spectrum generating algebra and no ghost theorem for the dual model. Phys. Rev., D6:1655–1662, 1972.Google Scholar
[15] C.-S., Chu and P.-M., Ho. Noncommutative open string and D-brane. Nucl. Phys., B550:151–168, 1999.Google Scholar
[16] P. D. B., Collins. An Introduction to Regge Theory and High-Energy Physics. Cambridge Monographs on Mathematical Physics. Cambridge University Press, 2009.
[17] S., Deser and B., Zumino. A complete action for the spinning string. Phys. Lett., B65:369–373, 1976.Google Scholar
[18] P. Di, Francesco, P., Mathieu, and D., Senechal. Conformal Field Theory. Springer Verlag, 1997.
[19] R., Dijkgraaf, C., Vafa, E.P., Verlinde, and H.L., Verlinde. The operator algebra of orbifold models. Commun. Math. Phys., 123:485, 1989.Google Scholar
[20] J., Dixmier. Von Neumann Algebras. North-Holland Mathematical Library. North- Holland, 1981.
[21] M.J., Duff, R.R., Khuri, and J.X., Lu. String solitons. Phys. Rept., 259:213–326, 1995.Google Scholar
[22] L.D., Faddeev. How algebraic Bethe ansatz works for integrable model. In Relativistic Gravitation and Gravitational Radiation. Proceedings, School of Physics, Les Houches, France, September 26–October 6, 1995, pp. 149–219, 1996.Google Scholar
[23] D., Gepner. Space-time supersymmetry in compactified string theory and superconformal models. Nucl. Phys., B296:757, 1988.Google Scholar
[24] F., Gliozzi, J., Scherk, and D.I., Olive. Supergravity and the spinor dual model. Phys. Lett., B65:282, 1976.Google Scholar
[25] P., Goddard, J., Goldstone, C., Rebbi, and C.B., Thorn. Quantum dynamics of a massless relativistic string. Nucl. Phys., B56:109–135, 1973.Google Scholar
[26] P., Goddard and C.B., Thorn. Compatibility of the dual pomeron with unitarity and the absence of ghosts in the dual resonance model. Phys. Lett., B40:235–238, 1972.Google Scholar
[27] M.B., Green, J.H., Schwarz, and E., Witten. Superstring Theory. Vol. 1: Introduction. Cambridge University Press, 1987.
[28] M.B., Green, J.H., Schwarz, and E., Witten. Superstring Theory. Vol. 2: Loop Amplitudes, Anomalies and Phenomenology. Cambridge Univetsity Press, 1987.
[29] M.B., Green and J.H., Schwarz. Anomaly cancellation in supersymmetric D=10 gauge theory and superstring theory. Phys. Lett., B149:117–122, 1984.Google Scholar
[30] B.R., Greene. Lectures on the Quantum Geometry of String Theory. In Quantum Symmetries, Proceedings of the NATO Advanced Study Institute, 64th Session, Les Houches, France, August 1–September 8, 1995, edited by A., Connes, K., Gawedzki, and J., Zinn-Justin, 126–193, Elsevier, 1995.
[31] P.A., Griffiths and J., Harris. Principles of Algebraic Geometry. Wiley, 1978.
[32] N., Gromov, F., Levkovich-Maslyuk, and G., Sizov. Quantum Spectral Curve and the Numerical Solution of the Spectral Problem in AdS5/CFT4. 2015.
[33] D.J., Gross, J.A., Harvey, E.J., Martinec, and R., Rohm. The heterotic string. Phys. Rev. Lett., 54:502–505, 1985.Google Scholar
[34] S.S., Gubser, I.R., Klebanov, and A.M., Polyakov. A semiclassical limit of the gauge/string correspondence. Nucl. Phys., B636:99–114, 2002.Google Scholar
[35] M., Henneaux and C., Teitelboim. Quantization of Gauge Systems. Princeton Series in Physics. Princeton University Press, 1992.
[36] J., Hoppe. Membranes and Matrix Models. 2002. https://arxiv.org/abs/hep-th/0206192.
[37] A.C., Irving and R.P., Worden. Regge phenomenology. Phys. Rept., 34:117–231, 1977.Google Scholar
[38] V.G., Kac. Infinite Dimensional Lie Algebras. Cambridge University Press, 1990.
[39] E., Kiritsis. String Theory in a Nutshell. Princeton University Press, 2007.
[40] D., Kutasov. Introduction to little string theory. In Superstrings and Related Matters. Proceedings, Spring School, Trieste, Italy, April 2–10, 2001, pp. 165–209, 2001.Google Scholar
[41] D., Lüst and S., Theisen. Lectures on String Theory. Lecture Notes in Physics. Springer Verlag, 1989.
[42] J.M., Maldacena. The large N limit of superconformal field theories and supergravity. Adv. Theor. Math. Phys., 2:231–252, 1998.Google Scholar
[43] J.E., Marsden and T., Ratiu. Introduction to Mechanics and Symmetry: A Basic Exposition of Classical Mechanical Systems. Texts in AppliedMathematics. Springer, 1994.
[44] J.A., Minahan and K., Zarembo. The Bethe ansatz for N=4 superYang-Mills. JHEP, 03:013, 2003.Google Scholar
[45] C., Montonen and D.I., Olive. Magnetic monopoles as gauge particles? Phys. Lett., B72:117, 1977.Google Scholar
[46] D., Mumford. Tata Lectures on Theta, 1. Modern Birkhuser Classics. Springer, 2007.
[47] Y., Nambu. Dual model of hadrons. 1970. University of Chicago Preprint EFI-70-07.
[48] H., Nastase. Introduction to the AdS/CFT Correspondence. Cambridge University Press, 2015.
[49] A., Neveu and J., Scherk. Connection between Yang-Mills fields and dual models. Nucl. Phys., B36:155–161, 1972.Google Scholar
[50] H.B., Nielsen and P., Olesen. A parton view on dual amplitudes. Phys. Lett., B32:203, 1970.Google Scholar
[51] J.E., Paton and H.-M., Chan. Generalized Veneziano model with isospin. Nucl. Phys., B10:516–520, 1969.Google Scholar
[52] M.E., Peskin and D.V., Schroeder. An Introduction to Quantum Field Theory. Westview Press, 1995.
[53] J., Polchinski and M.J., Strassler. Hard scattering and gauge/string duality. Phys. Rev. Lett., 88:031601, 2002.Google Scholar
[54] J.G., Polchinski. Lectures on D-branes. 1996. https://arxiv.org/abs/hep-th/9611050.
[55] J.G., Polchinski. String Theory – Volume I. Cambridge Monographs on Mathematical Physics. Cambridge University Press, 2005.
[56] J.G., Polchinski. String Theory – Volume II. Cambridge Monographs on Mathematical Physics. Cambridge University Press, 2005.
[57] A., Recknagel and V., Schomerus. Boundary Conformal Field Theory and the Worldsheet Approach to D-branes. Cambridge University Press, 2013.
[58] J., Scherk and J.H., Schwarz. Dual models for nonhadrons. Nucl. Phys., B81:118–144, 1974.Google Scholar
[59] V., Schomerus. D-branes and deformation quantization. JHEP, 9906:030, 1999.Google Scholar
[60] N., Seiberg and E., Witten. String theory and noncommutative geometry. JHEP, 9909:032, 1999.Google Scholar
[61] S., Sethi and M., Stern. D-brane bound states redux. Commun. Math. Phys., 194:675– 705, 1998.Google Scholar
[62] K., Skenderis. Lecture notes on holographic renormalization. Class. Quant. Grav., 19:5849–5876, 2002.Google Scholar
[63] R., Slansky. Group theory for unified model building. Phys. Rept., 79:1–128, 1981.Google Scholar
[64] L., Susskind. Dual symmetric theory of hadrons. 1. Nuovo Cim., A69:457–496, 1970.Google Scholar
[65] R.J., Szabo. An Introduction to String Theory and D-brane Dynamics. Imperial College Press, 2004.
[66] G. 't, Hooft. A planar diagram theory for strong interactions. Nucl. Phys., B72:461, 1974.Google Scholar
[67] J., Terning. Modern Supersymmetry: Dynamics and Duality. Oxford University Press, 2006.
[68] D., Tong. Lectures on String Theory. 2009. http://www.damtp.cam.ac.uk/user/tong/string.html.
[69] A.A., Tseytlin. Review of AdS/CFT integrability, chapter II.1: classical AdS5 × S5 string solutions. Lett. Math. Phys., 99:103–125, 2012.Google Scholar
[70] A. van, Proeyen and D.Z., Freedman. Supergravity. Cambridge University Press, 2012.
[71] G., Veneziano. Construction of a crossing-symmetric, Regge behaved amplitude for linearly rising trajectories. Nuovo Cim., A57:190–197, 1968.Google Scholar
[72] S., Weinberg. The Quantum Theory of Fields. Vol. 1: Foundations. Cambridge University Press, 1995.
[73] J., Wess and J., Bagger. Supersymmetry and Supergravity. Princeton Series in Physics. Princeton University Press, 1992.
[74] P., West. Introduction to Strings and Branes. Cambridge University Press, 2012.
[75] P.C., West. Introduction to Supersymmetry and Supergravity. World Scientific, 1986.
[76] E., Witten. Anti-de Sitter space and holography. Adv. Theor. Math. Phys., 2:253–291, 1998.Google Scholar
[77] T., Yoneya. Quantum gravity and the zero slope limit of the generalized Virasoro model. Lett. Nuovo Cim., 8:951–955, 1973.Google Scholar
[78] T., Yoneya. Connection of dual models to electrodynamics and gravidynamics. Prog. Theor. Phys., 51:1907–1920, 1974.Google Scholar
[79] B., Zumino. Supersymmetry and Kahler mainfolds. Phys. Lett., B87:203, 1979.Google Scholar
[80] B., Zwiebach. A First Course in String Theory. Cambridge University Press, 2005.

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  • Bibliography
  • Volker Schomerus, Deutsches Elektronen-Sychrotron (DESY) Hamburg
  • Book: A Primer on String Theory
  • Online publication: 05 July 2017
  • Chapter DOI: https://doi.org/10.1017/9781316672631.024
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  • Bibliography
  • Volker Schomerus, Deutsches Elektronen-Sychrotron (DESY) Hamburg
  • Book: A Primer on String Theory
  • Online publication: 05 July 2017
  • Chapter DOI: https://doi.org/10.1017/9781316672631.024
Available formats
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Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

  • Bibliography
  • Volker Schomerus, Deutsches Elektronen-Sychrotron (DESY) Hamburg
  • Book: A Primer on String Theory
  • Online publication: 05 July 2017
  • Chapter DOI: https://doi.org/10.1017/9781316672631.024
Available formats
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