Advanced quantum dot configurations S Kiravittaya, A Rastelli, OG Schmidt
Reports on Progress in Physics 72 (4), 046502, 2009
199 2009 Formation of lateral quantum dot molecules around self-assembled nanoholes R Songmuang, S Kiravittaya, OG Schmidt
Applied physics letters 82 (17), 2892-2894, 2003
199 2003 Shape evolution of InAs quantum dots during overgrowth R Songmuang, S Kiravittaya, OG Schmidt
Journal of Crystal Growth 249 (3-4), 416-421, 2003
171 2003 Principles and applications of micro and nanoscale wrinkles Y Mei, S Kiravittaya, S Harazim, OG Schmidt
Materials Science and Engineering: R: Reports 70 (3-6), 209-224, 2010
124 2010 Growth of three-dimensional quantum dot crystals on patterned GaAs (0 0 1) substrates S Kiravittaya, H Heidemeyer, OG Schmidt
Physica E: Low-dimensional Systems and Nanostructures 23 (3-4), 253-259, 2004
119 2004 Self-assembled nanoholes, lateral quantum-dot molecules, and rolled-up nanotubes OG Schmidt, C Deneke, S Kiravittaya, R Songmuang, H Heidemeyer, ...
IEEE Journal of selected topics in quantum electronics 8 (5), 1025-1034, 2002
116 2002 Closely stacked InAs/GaAs quantum dots grown at low growth rate H Heidemeyer, S Kiravittaya, C Müller, NY Jin-Phillipp, OG Schmidt
Applied physics letters 80 (9), 1544-1546, 2002
116 2002 Lab-in-a-tube: detection of individual mouse cells for analysis in flexible split-wall microtube resonator sensors EJ Smith, S Schulze, S Kiravittaya, Y Mei, S Sanchez, OG Schmidt
Nano letters 11 (10), 4037-4042, 2011
114 2011 Lab-in-a-tube: on-chip integration of glass optofluidic ring resonators for label-free sensing applications SM Harazim, VAB Quiñones, S Kiravittaya, S Sanchez, OG Schmidt
Lab on a Chip 12 (15), 2649-2655, 2012
109 2012 Self‐assembled quantum dot molecules L Wang, A Rastelli, S Kiravittaya, M Benyoucef, OG Schmidt
Advanced Materials 21 (25‐26), 2601-2618, 2009
109 2009 On-chip A Bernardi, S Kiravittaya, A Rastelli, R Songmuang, DJ Thurmer, ...
Applied Physics Letters 93 (9), 094106, 2008
102 2008 Light emission and wave guiding of quantum dots in a tube S Mendach, R Songmuang, S Kiravittaya, A Rastelli, M Benyoucef, ...
Applied physics letters 88 (11), 111120, 2006
102 2006 Site-controlled growth and luminescence of InAs quantum dots using in situ Ga-assisted deoxidation of patterned substrates P Atkinson, S Kiravittaya, M Benyoucef, A Rastelli, OG Schmidt
Applied Physics Letters 93 (10), 101908, 2008
98 2008 Rolled-up optical microcavities with subwavelength wall thicknesses for enhanced liquid sensing applications G Huang, VA Bolaños Quiñones, F Ding, S Kiravittaya, Y Mei, OG Schmidt
Acs Nano 4 (6), 3123-3130, 2010
97 2010 Fabrication, self-assembly, and properties of ultrathin AlN/GaN porous crystalline nanomembranes: tubes, spirals, and curved sheets Y Mei, DJ Thurmer, C Deneke, S Kiravittaya, YF Chen, A Dadgar, ...
Acs Nano 3 (7), 1663-1668, 2009
93 2009 Vertical alignment of laterally ordered InAs and InGaAs quantum dot arrays on patterned (0 0 1) GaAs substrates Y Nakamura, OG Schmidt, NY Jin-Phillipp, S Kiravittaya, C Müller, K Eberl, ...
Journal of crystal growth 242 (3-4), 339-344, 2002
91 2002 Self-assembled InAs quantum dots on patterned GaAs (001) substrates: Formation and shape evolution S Kiravittaya, A Rastelli, OG Schmidt
Applied Physics Letters 87 (24), 243112, 2005
90 2005 In situ laser microprocessing of single self-assembled quantum dots and optical microcavitiesA Rastelli, A Ulhaq, S Kiravittaya, L Wang, A Zrenner, OG Schmidt
Applied physics letters 90 (7), 073120, 2007
81 2007 Optical properties of rolled-up tubular microcavities from shaped nanomembranes GS Huang, S Kiravittaya, VA Bolaños Quiñones, F Ding, M Benyoucef, ...
Applied Physics Letters 94 (14), 141901, 2009
79 2009 Strongly coupled semiconductor microcavities: A route to couple artificial atoms over micrometric distances M Benyoucef, S Kiravittaya, YF Mei, A Rastelli, OG Schmidt
Physical Review B 77 (3), 035108, 2008
79 2008 