Quantum Optics

1.T. Yoshie, A. Scherer, J. Hendrickson, G. Khitrova, H. M. Gibbs, G. Rupper, C. Ell, O. B. Shchekin, and D. G. Deppe, “Vacuum Rabi splitting with a single quantum dot in a photonic crystal nanocavity,”  Nature 432, 200-203 (2004)

2.Schilling J, Scherer A, Gosele U, et al. Macroporous silicon membranes as electron and x-ray transmissive windows  APPLIED PHYSICS LETTERS 85 (7): 1152-1154 AUG 16 2004

3.Mosor S, Hendrickson J, Richards BC, Sweet J, Khitova G, Gibbs HM, Yoshie T, Scherer A, Shchekin OB, Deppe DG., “Scanning a photonic crystal slab nanocavity by condensation of xenon”, APPLIED PHYSICS LETTERS 87 (14): Art. No. 141105 OCT 3 2005

4.Hendrickson J, Richards BC, Sweet J, Mosor S, Christenson C, Lam D, Khitrova G, Gibbs HM, Yoshie T, Scherer A, Shchekin OB, Deppe DG., “Quantum dot photonic-crystal-slab nanocavities: Quality factors and lasing”, PHYSICAL REVIEW B 72 (19): Art. No. 193303 NOV 2005

5.Khitrova G, Gibbs HM, Kira M, Koch  SW, Scherer A, ”Vacuum Rabi splitting in semiconductors”, NATURE PHYSICS 2 (2): 81-90 FEB 2006

6.Yoshie T, Shchekin OB, Chen H, et al. Planar photonic crystal nanolasers (II): Low-threshold quantum dot lasers IEICE T ELECTRON E87C (3): 300-307 MAR 2004

7.Yoshie T, Shchekin OB, Chen H, et al, Quantum dot photonic crystal lasers, ELECTRON LETT 38 (17): 967-968 AUG 15 2002

8.Vuckovic J, Pelton M, Scherer A, et al, Optimization of three-dimensional micropost microcavities for cavity quantum electrodynamics, PHYS REV A 66 (2): art. no. 023808 AUG 2002

9.Min B, Kima S, Okamoto K, Yang L, Scherer A, Atwater H, and Vahala K, “Ultralow threshold on-chip microcavity nanocrystal quantum dot lasers”, APPLIED PHYSICS LETTERS 89, 191124, Nov 6, 2006

10. Kippenberg, T.J, Rokhsari, H, Carmon, T, Scherer, A, and Vahala,K.J, ”Analysis of radiation-pressure induced mechanical oscillation of an optical microcavity”, PHYSICAL REVIEW LETTERS 95 (3): Art. No. 033901 JUL 15 2005

11.Vuckovic J, Loncar M, Mabuchi H, et al, Optimization of the Q factor in photonic crystal microcavities, IEEE J QUANTUM ELECT 38 (7): 850-856 JUL 2002

12.Pelton M, Vuckovic J, Solomon GS, et al, Three-dimensionally confined modes in micropost microcavities: Quality factors and Purcell factors, IEEE J QUANTUM ELECT 38 (2): 170-177 FEB 2002

13.Vuckovic J, Loncar M, Mabuchi H, et al, Design of photonic crystal microcavities for cavity QED, PHYS REV E 65 (1): art. no. 016608 Part 2 JAN 2002

14.Yoshie T; Scherer A; Chen H; Huffaker D; Deppe D, “Optical characterization of two-dimensional photonic crystal cavities with indium arsenide quantum dot emitters”, APPLIED PHYSICS LETTERS 2001, Vol 79, Iss 1, pp 114-116.

15.Clausen EM; Craighead HG; Harbison JP; Scherer A; Schiavone LM; Vandergaag B; Florez LT “Nonradiative damage measured by cathodoluminescence in etched multiple quantum well GaAs/AlGaAs quantum dots”, JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B 1989, vol 7, iss 6, pp 2011-2014.

16.Scherer A; Craighead HG; Fabrication of small laterally patterned multiple quantum wells”, APPLIED PHYSICS LETTERS, Vol. 49, no. 19, 1986, pp. 1284-6.  

17.Worlock JM; Kash JA; Scherer A; Craighead HG; Tamargo MC “Optical spectroscopy of excitons in semiconductor microstructures”, JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS 1986, vol 3, iss 8, pp p246-p247.

18.Kash K; Scherer A; Worlock JM Craighead HG; Tamargo MC “Optical spectroscopy of ultrasmall structures etched from quantum-wells”, APPLIED PHYSICS LETTERS 1986, vol 49, iss 16, pp 1043-1045.