Andrzej Dragan
Visiting Research Associate Professor
S15-05-12

Preprints

  • A. Dragan, A. Ekert. Reply to the comment on \'Quantum priniple of relativity\'.
  • K. DÄ™bski, M. Zych, F. Costa, A. Dragan. Indefinite temporal order without gravity.
  • J. Paczos, A. Dragan, A. R. H. Smith, P. T. Grochowski, K. DÄ™bski. Quantum time dilation in a gravitational field.
  • A. Dragan, A. Ekert. Reply to Galilean invariance without superluminal particles.
  • J. A. Szypulski, P. T. Grochowski, K. DÄ™bski, A. Dragan. Effect of relativistic acceleration on tripartite entanglement in Gaussian states.

Publications

  • M. Ahmadi, P. Grochowski, K. Debski, A Smith, A. Dragan. (2022). Quantum Corrections to Classical Time Dilation . APS April Meeting Abstracts T15 007
  • K. DÄ™bski, P. T. Grochowski, A. Dragan. (2021). Probing the Casimir-Polder potential with Unruh-DeWitt detector excitations . Physics Letters B 815 136160
  • P. T. Grochowski, A. Smith, A. Dragan, K. DÄ™bski. (2021). Quantum time dilation in atomic spectra. Physical Review Research 3 023053
  • A. Dragan. (2021). Unusually Special Relativity. World Scientific 2021
  • A. Dragan, A. Ekert. (2020). Quantum principle of relativity. New J. Phys. 22 (3) 033038
  • B. Markowicz, K. DÄ™bski , M. Kolanowski, W. KamiÅ„ski, A. Dragan. (2020). General Framework to Derive Casimir Force of Electromagnetic Field in Non-inertial Reference Frames. Optics, Photonics and Lasers
  • B. Markowicz, K. DÄ™bski, M. Kolanowski, W. KamiÅ„ski, A. Dragan. (2020). Casimir effect in conformally flat spacetimes. Classical and Quantum Gravity 23 235009
  • A. Dragan, K. Lorek, P. T. Grochowski. (2019). Two-mode Gaussian quantum states measured by collinearly and noncollinearly accelerating observers. Phys. Rev. D 100 (2) 025007
  • P. Lewulis, A. Dragan. (2019). Three-line derivation of the Thomas precession. Am. J. Phys. 87 (8) 674-674

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