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Stone, A. Douglas - Department of Applied Physics, Yale University
Dramatic shape sensitivity of directional emission patterns from
Photovoltaic Current Response of Mesoscopic Conductors to Quantized Cavity Modes Maxim G. Vavilov* and A. Douglas Stone
Unidirectional lasing from InGaN multiple-quantum-well spiral-shaped micropillars
Quantitative verification of ab initio self-consistent laser theory
Steady-state Ab Initio Laser Theory and its Applications in Random and Complex Media
Polarization properties and dispersion relations for spiral resonances of a dielectric rod Harald G. L. Schwefel and A. Douglas Stone
Modes of wave-chaotic dielectric resonators H. E. Tureci, H. G. L. Schwefel, and A. Douglas Stone
Failure of the Wiedemann-Franz law in mesoscopic conductors Maxim G. Vavilov and A. Douglas Stone
DOI: 10.1126/science.1155311 , 643 (2008);320Science
Self-consistent multimode lasing theory for complex or random lasing media Hakan E. Treci*
Mode competition and output power in regular and chaotic dielectric cavity lasers
October 29, 2003 17:34 WSPC/Trim Size: 9in x 6in for Review Volume chapterws PROGRESS IN ASYMMETRIC RESONANT CAVITIES
At the 11 May 1917 meeting of the German Physical So-ciety, Albert Einstein, then a professor at the Univer-
Wave Chaos in Dielectric Resonators: Asymptotic and Numerical Approaches
Ray-wave correspondence in the nonlinear description of stadium-cavity lasers Susumu Shinohara,1
Directionality and Vector Resonances of Regular and Chaotic Dielectric Microcavities
