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Quantum field theory on a cone

J S Dowker

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The expressions derived by Sommerfeld (1897) and Carslaw (1919) for the Green functions and diffusion kernels in a wedge of arbitrary angle are shown to be useful in discussions of the Feynman Green function in Rindler space and other space-time metrics.


PACS

11.10.-z Field theory

02.30.-f Function theory, analysis

MSC

81Txx Quantum field theory; related classical field theories (See also 70Sxx)

34B27 Green functions

Subjects

Mathematical physics

Particle physics and field theory

Dates

Issue 1 (January 1977)



  1. Quantum field theory on a cone

    J S Dowker 1977 J. Phys. A: Math. Gen. 10 115

  2. Alternative vacuum states in static space-times with horizons

    S A Fulling 1977 J. Phys. A: Math. Gen. 10 917

  3. Detection of Dirac quanta in Rindler and black hole space-times and the ξ quantisation scheme

    B R Iyer and A Kumar 1980 J. Phys. A: Math. Gen. 13 469

  4. Acceleration radiation in a compact space

    E J Copeland et al 1984 Class. Quantum Grav. 1 179

  5. On an inertial observer's interpretation of the detection of radiation by linearly accelerated particle detectors

    P G Grove 1986 Class. Quantum Grav. 3 801

  6. Is acceleration radiation isotropic?

    P G Grove and A C Ottewill 1985 Class. Quantum Grav. 2 373

  7. Why does an accelerated detector click?

    T Padmanabhan 1985 Class. Quantum Grav. 2 117

  8. On the detection of particle and energy fluxes in two dimensions

    P G Grove 1986 Class. Quantum Grav. 3 793

  9. Particle detector equivalence

    K J Hinton 1984 Class. Quantum Grav. 1 27

  10. Ultracold neutrons, quantum effects of gravity and the weak equivalence principle

    O Bertolami and F M Nunes 2003 Class. Quantum Grav. 20 L61

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