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qcl:tutorials [2017/02/16 10:43]
stefan.birner
qcl:tutorials [2022/02/17 13:05] (current)
takuma.sato [Intraband RTDs]
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-====== Tutorials ====== +===== Tutorials ====== 
- +Here we describe several example ​input files.
-===== Example ​input files ======+
  
 ==== THz QCLs ==== ==== THz QCLs ====
  
 === GaAs/AlGaAs === === GaAs/AlGaAs ===
 +  * [[QCL::​Tutorials::​THz QCL - Fathololoumi (2012)]]\\ Terahertz quantum cascade lasers operating up to ~200 K with optimized oscillator strength and improved injection tunneling\\ S. Fathololoumi,​ E. Dupont, C.W.I. Chan, Z.R. Wasilewski, S.R. Laframboise,​ D. Ban, A. Mátyás, C. Jirauschek, Q. Hu, H. C. Liu\\ Optics Express 20, 3866 (2012)
  
-  * [[QCL::​Tutorials::​THz QCL - Fathololoumi]]\\ Terahertz quantum cascade lasers operating up to ~200 K with optimized oscillator strength and improved injection tunneling\\ S. Fathololoumi et al.\\ Optics Express 20, 3866 (2012) +  * GaAs/Al<​sub>​0.15</​sub>​Ga<​sub>​0.85</​sub>​As ​terahertz quantum cascade lasers with double-phonon resonant depopulation operating up to 172 K\\ R. W. Adams, K. Vijayraghavan,​ Q. J. Wang, J. Fan, F. Capasso, S. P. Khanna, A. G. Davies, E. H. Linfield, M. A. Belkin\\ Applied Physics Letters 97, 13111 (2010)
- +
-GaAs/Al0.15Ga0.85As terahertz quantum cascade lasers with double-phonon resonant depopulation operating up to 172 K +
-R. W. Adams, K. Vijayraghavan,​ Q. J. Wang, J. Fan, F. Capasso, S. P. Khanna, A. G. Davies, E. H. Linfield, M. A. Belkin +
-Applied Physics Letters 97, 13111 (2010)+
  
   * Influence of doping on the performance of terahertz quantum-cascade lasers\\ A. Benz, G. Fasching, A. M. Andrews, M. Martl, K. Unterrainer,​ T. Roch, W. Schrenk, S. Golka, G. Strasser\\ Applied Physics Letters 90, 101107 (2007)   * Influence of doping on the performance of terahertz quantum-cascade lasers\\ A. Benz, G. Fasching, A. M. Andrews, M. Martl, K. Unterrainer,​ T. Roch, W. Schrenk, S. Golka, G. Strasser\\ Applied Physics Letters 90, 101107 (2007)
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   * 1.9 THz quantum-cascade lasers with one-well injector\\ S. Kumar, B. S. Williams, Q. Hu\\ Applied Physics Letters 88, 121123 (2006)   * 1.9 THz quantum-cascade lasers with one-well injector\\ S. Kumar, B. S. Williams, Q. Hu\\ Applied Physics Letters 88, 121123 (2006)
  
-  * Far-infrared ($\lambda \approx ​87~\mu{\rm m}$) bound-to-continuum quantum-cascade lasers operating up to 90 K\\ G. Scalari, L. Ajili, J. Faist, H. Beere, E. Linfield, D. Ritchie, G. Davies\\ Applied Physics Letters 82, 3165 (2003)+  * Far-infrared ($\lambda \simeq 87~\mu{\rm m}$) bound-to-continuum quantum-cascade lasers operating up to 90 K\\ G. Scalari, L. Ajili, J. Faist, H. Beere, E. Linfield, D. Ritchie, G. Davies\\ Applied Physics Letters 82, 3165 (2003)
  
   * Broadband THz lasing from a photon-phonon quantum cascade structure\\ G. Scalari, M. I. Amanti, C. Walther, R. Terazzi, M. Beck, J. Faist\\ Optics Express 18, 8043 (2010)   * Broadband THz lasing from a photon-phonon quantum cascade structure\\ G. Scalari, M. I. Amanti, C. Walther, R. Terazzi, M. Beck, J. Faist\\ Optics Express 18, 8043 (2010)
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 === InGaAs/​AlGaSb === === InGaAs/​AlGaSb ===
  
-  * High performance InGaAs/​GaAsSb terahertz quantum cascade lasers operating up to 142K\\ C. Deutsch, M. Krall, M. Brandstetter,​ H. Detz, A. M. Andrews, P. Klang, W. Schrenk, G. Strasser, K. Unterrainer\\ Applied Physics Letters 101, 211117 (2012)+  * High performance InGaAs/​GaAsSb terahertz quantum cascade lasers operating up to 142 K\\ C. Deutsch, M. Krall, M. Brandstetter,​ H. Detz, A. M. Andrews, P. Klang, W. Schrenk, G. Strasser, K. Unterrainer\\ Applied Physics Letters 101, 211117 (2012)
  
  
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 === GaAs/AlGaAs === === GaAs/AlGaAs ===
-  * 300 K operation of a GaAs-based quantum-cascade laser at $\lambda$~$9~{\rm mm}$\\ H. Page, C. Becker, A. Robertson, G. Glastre, V. Ortiz, C. Sirtori\\ Applied Physics Letters 78, 3529 (2001)+  * 300 K operation of a GaAs-based quantum-cascade laser at $\lambda\sim 9~{\rm mm}$\\ H. Page, C. Becker, A. Robertson, G. Glastre, V. Ortiz, C. Sirtori\\ Applied Physics Letters 78, 3529 (2001)
  
 ---- ----
 +==== Resonant-tunneling diodes ====
 +
 +==== Intraband RTDs ====
 +  * [[https://​www.nextnano.com/​manual/​nextnano.NEGF_tutorials/​algaas_gaas_rtd.html|AlGaAs/​GaAs RTD]] (our new manual)
 +
 +==== Interband RTDs ====
  
-==== Further examples ==== 
-  * **Simple GaAs/InGaAs Quantum Well Example**\\ Self-consistent quantum transport theory of carrier capture in heterostructures\\ T. Kubis, A. Trellakis, P. Vogl\\ Proceedings of the 14<​sup>​th</​sup>​ International Conference on Nonequilibrium Carrier Dynamics in Semiconductors,​ M. Saraniti and U. Ravaioli, eds., Chicago, USA, July 25-19, 2005, Springer Proceedings in Physics, vol. 110, pp. 369-372 
  
qcl/tutorials.1487241832.txt.gz · Last modified: 2017/02/16 10:43 by stefan.birner