Book contents
1 - Quantum mechanics for quantum engineers
Published online by Cambridge University Press: 05 June 2012
Summary
Shall I refuse my dinner because I do not fully understand the process of digestion? No, not if I am satisfied with the result.
O. Heaviside, Electromagnetic Theory, vol. 2, 1899Basic notions of quantum mechanics
Quantum axioms
Let us start with a brief recapitulation of quantum mechanics on the “how to” level. According to the standard lore, the instantaneous state of any quantum system (that is, everything that can be known about it at a given moment of time) is given by its wave function (state vector) – a complex-valued vector in some abstract Hilbert space; the nature of this space is determined by the system. All the observables (i.e., physical quantities defined for the system and determined by its state – e.g., the position or momentum of a free particle, the energy of an oscillator) are described by Hermitian operators defined in the same Hilbert space. All three elements – the Hilbert space, the state vector, and the set of observables – are necessary to describe the outcome of any experiment one could perform with the system. Since humans cannot directly observe the behaviour of quantum objects, these outcomes are also called measurements, being the result of using some classical apparatus in order to translate the state of a quantum system into the state of the apparatus, which can then be read out by the experimentalist. The classical (i.e., non-quantum) nature of the apparatus is essential, as we shall see in a moment.
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- Quantum EngineeringTheory and Design of Quantum Coherent Structures, pp. 1 - 52Publisher: Cambridge University PressPrint publication year: 2011
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