Matter Density and Relativistic Models of Wave Function Collapse

@inproceedings{Bedingham2011MatterDA,
  title={Matter Density and Relativistic Models of Wave Function Collapse},
  author={Daniel Bedingham and Detlef D{\"u}rr and Giancarlo Ghirardi and Roderich Tumulka},
  year={2011}
}
Mathematical models for the stochastic evolution of wave functions that combine the unitary evolution according to the Schrödinger equation and the collapse postulate of quantum theory are well understood for non-relativistic quantummechanics. Recently, there has been progress in making these models relativistic. But even with a fully relativistic law for the wave function evolution, a problem with relativity remains: Different Lorentz frames may yield conflicting values for the matter density… CONTINUE READING
9 Citations
51 References
Similar Papers

References

Publications referenced by this paper.
Showing 1-10 of 51 references

Some relativistic oddities in the quantum theory of observation

  • I. Bloch
  • Phys. Rev
  • 1967
Highly Influential
4 Excerpts

Collapse of the State Vector

  • S. Weinberg
  • Phys. Rev. A
  • 2012
1 Excerpt

Ghirardi : Some Lessons from Relativistic Reduction Models

  • C. G.
  • J . Phys . A
  • 2012

Tumulka: Parameter Diagrams of the GRW and CSL Theories of Wave Function Collapse

  • R. W. Feldmann
  • J. Phys. A
  • 2012
1 Excerpt

Bedingham : Relativistic state reduction dynamics

  • S. J.
  • Found . Phys .
  • 2011

Relativistic state reduction dynamics

  • D. Bedingham
  • Found. Phys. 41:
  • 2011
3 Excerpts

Tumulka : The Point Processes of the GRW Theory of Wave Function Collapse

  • R.
  • Rev . Math . Phys .
  • 2009

On the Common Structure of Bohmian Mechanics and the Ghirardi – Rimini – Weber Theory

  • D.
  • Brit . J . Philos . Sci .
  • 2008

Zangh̀ı: On the Common Structure of Bohmian Mechanics and the Ghirardi–Rimini–Weber Theory

  • V. Allori, S. Goldstein, N. R. Tumulka
  • Brit. J. Philos. Sci
  • 2008
1 Excerpt

Adler : Lower and Upper Bounds on CSL Parameters from Latent Image Formation and IGM Heat

  • L. S.
  • J . Phys . A : Math . Theor .
  • 2007

Similar Papers

Loading similar papers…