<span class="mw-page-title-main">Boltzmann equations</span>
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Boltzmann equations

The first time-resolved evolution of Boltzmann equations compared to experiments is from Ref. [1].

Important texts regarding polaritons and in particular polariton BEC include (chronologically) Refs. [2][3][4][5][6][7][8][9][10][11][12][13][14][15][16] & [17]

Reviews available on the topic include Refs. [18].

Links

References

  1. Carrier thermalization in Cu$_2$O Phonon emission by excitons. D. W. Snoke, D. Braun and M. Cardona in Phys. Rev. B 44:2991 (1991).
  2. Stimulated emission of a microcavity dressed exciton and suppression of phonon scattering. S. Pau, G. Björk, J. Jacobson, H. Cao and Y. Yamamoto in Phys. Rev. B 51:7090 (1995).
  3. Photoluminescence decay times in strong-coupling semiconductor microcavities. F. Tassone, C. Piermarocchi, V. Savona, A. Quattropani and P. Schwendimann in Phys. Rev. B 53:R7642 (1996).
  4. Bottleneck effects in the relaxation and photoluminescence of microcavity polaritons. F. Tassone, C. Piermarocchi, V. Savona, A. Quattropani and P. Schwendimann in Phys. Rev. B 56:7554 (1997).
  5. Photoluminescence dynamics of cavity polaritons under resonant excitation in the picosecond range. J. Bloch and J. Y. Marzin in Phys. Rev. B 56:2103 (1997).
  6. Exciton-exciton scattering dynamics in a semiconductor microcavity and stimulated scattering into polaritons. F. Tassone and Y. Yamamoto in Phys. Rev. B 59:10830 (1999).
  7. Suppression of the bottleneck in semiconductor microcavities. T. Doan and D. T. Thoai in Solid State Commun. 123:427 (2002).
  8. Polariton dynamics and Bose-Einstein condensation in semiconductor microcavities. D. Porras, C. Ciuti, J. J. Baumberg and C. Tejedor in Phys. Rev. B 66:085304 (2002).
  9. Polariton laser: thermodynamics and quantum kinetic theory. G. Malpuech, Y. G. Rubo, F. P. Laussy, P. Bigenwald and A. V. Kavokin in Semicond. Sci. Technol. 18:S395 (2003).
  10. Condensation kinetics of cavity polaritons interacting with a thermal phonon bath. H. T. Cao, T. D. Doan, D. B. Tran Thoai and H. Haug in Phys. Rev. B 69:245325 (2004).
  11. Condensation kinetics of microcavity polaritons with scattering by phonons and polaritons. T. D. Doan, Huy Thien Cao, D. B. Tran Thoai and H. Haug in Phys. Rev. B 72:085301 (2005).
  12. Microcavity polariton kinetics for bosonic condensation and lasing in II-VI compound materials. T. D. Doan, H. T. Cao, D. B. T. Thoai and H. Haug in Phys. Rev. B 74:115316 (2006).
  13. Coherence of condensed microcavity polaritons calculated within Boltzmann-Master equations. T. D. Doan, H. Thien Cao, D. B. Tran Thoai and H. Haug in Phys. Rev. B 78:205306 (2008).
  14. Coherence and decoherence of a polariton condensate. H. Haug, H. T. Cao and D. B. T. Thoai in Phys. Rev. B 81:245309 (2010).
  15. Numerical simulations of the polariton kinetic energy distribution in GaAs quantum-well microcavity structures. V. E. Hartwell and D. W. Snoke in Phys. Rev. B 82:075307 (2010).
  16. Formation of an Exciton Polariton Condensate: Thermodynamic versus Kinetic Regimes. J. Kasprzak, D. D. Solnyshkov, R. André, Le Si Dang and G. Malpuech in Phys. Rev. Lett. 101:146404 (2008).
  17. Bose-Einstein Condensation of Long-Lifetime Polaritons in Thermal Equilibrium. Y. Sun, P. Wen, Y. Yoon, G. Liu, M. Steger, L. N. Pfeiffer, K. West, D. W. Snoke and K. A. Nelson in Phys. Rev. Lett. 118:016602 (2017).
  18. The quantum Boltzmann equation in semiconductor physics. D.W. Snoke in Annalen der Physik 523:87 (2010).