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Theses of Eduardo Zubizarreta Casalengua

Eduardo Zubizarreta Casalengua defended two theses.

Multiphoton correlations and emitters

Supervised by Fabrice and defended online at the University of Wolverhampton—for which he was the 1st graduating PhD in Physics—on 9 December (2022) (photo) in front of:

  1. Lamprini Mangiorou ― Chair
  2. Jonathan Keeling ― external examiner
  3. Anton Nalitov ― internal examiner

He reported on the structure of correlations of the harmonic oscillator,[1] stimulated single-photon emission from a quantum ladder,[2] loss of antibunching[3] and still unpublished works on multiphoton emission arXiv:2109.12049 , spatial correlations of quantum states and pertubation theory of time-resolved correlators. Those results, not yet in the scientific literature, can be found in his Wulfrunian thesis.

Link

Quantum light with classical fields

Supervised by Elena and defended at the Universidad Autónoma de Madrid on 18 April (2023) (photo)(photo)(photo)(photo), in front of:

  1. Luis Viña (president)
  2. Diego Martin Cano ― secretary
  3. Serge Reynaud ― examiner (online)
  4. Kai Müller ― examiner
  5. Sigmund Kohler ― examiner

with Alejandro Gonzalez Tudela and Ángel Rivas Vargas as suppleants.

In this second Opus, he reported on admixing coherent and quantum fields[4][5] with consequences for joint subnatural-linewidth antibunching,[6][7] loss of antibunching by filtering[8], cascaded emission in detuned resonance fluorescence[9] and other results still unpublished, including $N$-mode squeezing, weak and strong coupling in resonance fluorescence and dephasing of the detuned, coherently- and weakly-driven emitter. Those results, not yet in the scientific literature, can be found in his Madrid thesis.

References

  1. Structure of the harmonic oscillator in the space of $n$-particle Glauber correlators. E. Zubizarreta Casalengua, J. C. López Carreño, E. del Valle and F. P. Laussy in J. Math. Phys. 58:062109 (2017). Pdf-48px.png
  2. Stimulated Generation of Indistinguishable Single Photons from a Quantum Ladder System. F. Sbresny, L. Hanschke, E. Schöll, W. Rauhaus, B. Scaparra, K. Boos, E. Zubizarreta Casalengua, H. Riedl, E. del Valle, J. J. Finley, K. D. Jöns and K. Müller in Phys. Rev. Lett. 128:093603 (2022).
  3. Loss of antibunching. J. C. López Carreño, E. Zubizarreta Casalengua, B. Silva, E. del Valle and F. P. Laussy in Phys. Rev. A 105:023724 (2022).
  4. Conventional and Unconventional Photon statistics. E. Zubizarreta Casalengua, J. C. López Carreño, F. P. Laussy and E. del Valle in Laser Photon. Rev. 14:1900279 (2020). Pdf-48px.png
  5. Tuning photon statistics with coherent fields. E. Zubizarreta Casalengua, J. C. López Carreño, F. P. Laussy and E. del Valle in Phys. Rev. A 101:063824 (2020).
  6. Joint subnatural-linewidth and single-photon emission from resonance fluorescence. J. C. López Carreño, E. Zubizarreta Casalengua, F.P. Laussy and E. del Valle in Quantum Sci. Technol. 3:045001 (2018).
  7. Impact of detuning and dephasing on a laser-corrected subnatural-linewidth single-photon source. J. C. López Carreño, E. Zubizarreta Casalengua, F. P. Laussy and E. del Valle in J. Phys. B.: At. Mol. Phys. 52:035504 (2019).
  8. Origin of Antibunching in Resonance Fluorescence. L. Hanschke, L. Schweickert, J. C. López Carreño, E. Schöll, K. D. Zeuner, T. Lettner, E. Zubizarreta Casalengua, M. Reindl, S. Filipe Covre da Silva, R. Trotta, J. J. Finley, A. Rastelli, E. del Valle, F. P. Laussy, V. Zwiller, K. Müller and K. D. Jöns in Phys. Rev. Lett. 125:170402 (2020). Pdf-48px.png
  9. Two-photon correlations in detuned resonance fluorescence. E. Zubizarreta Casalengua, E. del Valle and F. P. Laussy in Phys. Scr. 98:055104 (2023).