• PhilPapers
  • PhilPeople
  • PhilArchive
  • PhilEvents
  • PhilJobs
  • Sign in
PhilPeople
 
  • Sign in
  • News Feed
  • Find Philosophers
  • Departments
  • Radar
  • Help
 
profile-cover
Drag to reposition
profile picture

Travis Biro

  •  Home
  •  Publications
    3
    • Most Recent
    • Most Downloaded
    • Topics
  •  News and Updates

 More details
  • All publications (3)
  • List of Contents: Volume 14, Number 5, October 2001 Jose L. Cereceda: Identification of All Hardy-Type Correlations for Two Photons or Particles with Spin\ Anatolij Dvurecenskij and Thomas Vetterlein: Congruences and States on Pseudoeffect Algebras (review)
    with S. G. Matinyan and B. Muller
    Foundations of Physics 32 (1-3): 187. 2002.
    Philosophy of Physics, Miscellaneous
  •  78
    List of Contents: Volume 14, Number 5, October 2001
    with S. G. Matinyan and B. Müller
    Foundations of Physics 32 (1). 2002.
    Philosophy of Physics, Miscellaneous
  •  118
    Splitting the Source Term for the Einstein Equation to Classical and Quantum Parts
    with P. Ván
    Foundations of Physics 45 (11): 1465-1482. 2015.
    We consider the special and general relativistic extensions of the action principle behind the Schrödinger equation distinguishing classical and quantum contributions. Postulating a particular quantum correction to the source term in the classical Einstein equation we identify the conformal content of the above action and obtain classical gravitation for massive particles, but with a cosmological term representing off-mass-shell contribution to the energy–momentum tensor. In this scenario the—on…Read more
    We consider the special and general relativistic extensions of the action principle behind the Schrödinger equation distinguishing classical and quantum contributions. Postulating a particular quantum correction to the source term in the classical Einstein equation we identify the conformal content of the above action and obtain classical gravitation for massive particles, but with a cosmological term representing off-mass-shell contribution to the energy–momentum tensor. In this scenario the—on the Planck scale surprisingly small—cosmological constant stems from quantum bound states having a Bohr radius a as being \
    Philosophy of Physics, MiscellaneousPhilosophy of CosmologyQuantum Theories
PhilPeople logo

On this site

  • Find a philosopher
  • Find a department
  • The Radar
  • Index of professional philosophers
  • Index of departments
  • Help
  • Acknowledgments
  • Careers
  • Contact us
  • Terms and conditions

Brought to you by

  • The PhilPapers Foundation
  • The American Philosophical Association
  • Centre for Digital Philosophy, Western University
PhilPeople is currently in Beta Sponsored by the PhilPapers Foundation and the American Philosophical Association
Feedback