Prof. Christian Corda

Department of Science, Section of Physics of Santa Rita

School of Advanced Academic Studies and Research, Italy

Full Professor for Theoretical Physics

Email: (preferred),


2008 PhD in Physics, University of Pisa, Italy

2003 Specialist Graduate Degree in Physical Sciences, University of Pisa, Italy

2001 Graduate Degree in Physics, University of Pisa, Italy

Research Fields

Theoretical Physics

Mathematical Physics


Publications (selected)

  1. Christian Corda, Effective temperature,Hawking radiation and quasi-normal modes, Awarded Honorable Mention in the 2012 Essay Competition of the Gravity Research Foundation, Int. Journ. Mod. Phys. D 21, 1242023 (2012). Available from:
  2. Christian Corda, Interferometric detection of gravitational waves: the definitive test for General Relativity, Awarded Honorable Mention in the 2009 Essay Competition of the Gravity Research Foundation, Int. Journ. Mod. Phys. D 18, 2275 (2009). Available from:
  3. Christian Corda, “Time-Dependent Schrodinger Equation for Black Hole Evaporation: no Information Loss”, Ann. Phys. 353, 71 (2015). Available from:
  4. Christian Corda, “Black hole quantum spectrum” Eur. Phys. J. C 73, 2665 (2013). Available from:
  5. C. Corda, S. H. Hendi, R. Katebi, N. O. Schmidt, “Effective state, Hawking radiation and quasi-normal modes for Kerr black holes” JHEP 06, 008 (2013). Available from:
  6. Christian Corda, “Non-strictly black body spectrum from the tunnelling mechanism”, Ann. Phys. 337, 49 (2013). Available from:
  7. Lorenzo Iorio, Matteo Luca Ruggiero, Christian Corda, “Novel considerations about the error budget of the LAGEOS-based tests of frame-dragging with GRACE geopotential models”Acta Astronaut. 91, 141 (2013). Available from:
  8. Christian Corda, Herman J. Mosquera Cuesta, Roberto Lorduy Gòmez, “High-energy scalarons in R^{2} gravity as a model for Dark Matter in galaxies ”, Astropart. Phys. 35, 362-370 (2012). Available from:
  9. Christian Corda, “Precise response function for the magnetic component of Gravitational Waves in Scalar-Tensor Gravity”, Phys. Rev. D 83, 062002 (2011). Available from:
  10. C. Corda, S. H. Hendi, R. Katebi, N. O. Schmidt,“Initiating the effective unification of black hole horizon area and entropy quantization with quasi-normal modes”, Adv. High En. Phys. 530547 (Review paper, 2014). Available from:
  11. C. Corda, S. H. Hendi, R. Katebi, N. O. Schmidt, “Hawking radiation - quasi-normal modes correspondence and effective states for non-extremal Reissner-Nordstrom black holes”, Adv. High En. Phys. 527874 (2014). Available from:
  12. Christian Corda, “Gravitational wave astronomy: the definitive test for the "Einstein frame versus Jordan frame" controversy”, Astropart. Phys. 34, 412 (2011). Available from:
  13. Christian Corda, “Radiation dominated era and the power of general relativity”, EPL, 99, 10001 (2012). Available from:
  14. Christian Corda, “Cosmology of Einstein-Vlasov system in a weak modification of general relativity”, Mod. Phys. Lett. A 26, 2119 (2011). Available from:
  15. L. Iorio, H.I.M. Lichtenegger, M.L. Ruggiero, C. Corda, “Phenomenology of the Lense-Thirring effect in the Solar System”, invited review, Astrophys. Space Sci. 331, 351-395 (2011). Available from:
  16. Lawrence B. Crowell and Christian Corda (corresondent author), “f(R) Gravity, relic coherent gravitons and optical chaos”, Galaxies 2(1), 160-188 (2014). Available from:
  17. Christian Corda and Herman J. Mosquera Cuesta, “Inflation from R^2 gravity: a new approach using nonlinear electrodynamics”, Astropart. Phys. 34, 587-590 (2011). Available from:
  18. Christian Corda, “Information on the inflaton field from the spectrum of relic gravitational waves”, Gen. Rel. Grav. 42,1323-1333, (2010). Available from:
  19. Christian Corda, “Massive relic gravitational waves from f(R) theories of gravity: production and potential detection”, Eur. Phys. J. C 65 1-2 (2010) 257-267. Available from:
  20. Salvatore Capozziello, Christian Corda (correspondent author) and Maria Felicia De Laurentis, “Gravitational waves from f(R) Theories of Gravity: potential detection with LISA” , Phys. Lett. B 669, 255-259, (2008). Available from:
  21. Christian Corda, “The production of matter from curvature in a particular linearized high order theory of gravity and the longitudinal response function of interferometers”, J. Cosmol. Astropart. Phys. JCAP 04, 009 (2007). Available from:
  22. Christian Corda, “A solution of linearized Einstein field equations in vacuum used for the detection of the stochastic background of gravitational waves”, Astropart. Phys. 27, 539-549 (2007). Available from:
  23. Christian Corda, “A longitudinal component in massive gravitational waves arising from a bimetric theory of gravity”, Astropart. Phys. 28, 2, 247-250 ( 2007). Available from:
  24. Christian Corda, “The Importance of the ''magnetic'' components of gravitational waves in the response functions of interferometers”, Int. Journ. Mod. Phys. D, 16, 8, 1497-1517 (2007). Available from:
  25. Christian Corda, “An oscillating Universe from the linearized R^{2} theory of gravity”, Gen. Rel. Grav. 40, 10, 2201-2212 (2008). Available from:

Profile Details

Last Updated: 2015-02-12

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