51吃瓜网

Publications

Journal papers

(inverse chronological order)

(54) C. M Arachchige and A. Muller, "Portable Raman hydrogen concentration mapping with parts-per-billion sensitivity",

(53) A. Muller, "Low-noise optical spectrometer with a high spectral-range-to-resolution ratio",

(52) C. M. Arachchige and A. Muller, "Raman scattering applied to human breath analysis", .

(51) A. Muller, "High-power diode laser spectrally narrowed with prism鈥揺talon feedback", .

(50) J. Singh, D. Dodd, T. Evans-Nguyen and A. Muller, 鈥淭race Analysis of C4F7N Insulating Gas Mixtures by Spontaneous Raman Spectroscopy and Gas Chromatography鈥�, .

(49) C. M. Arachchige and A. Muller, 鈥淣arrow-Linewidth Pr:YLF Laser for High-Resolution Raman Trace Gas Spectroscopy鈥�, .

(48) J. Singh and A. Muller, 鈥淗igh-Precision Trace Hydrogen Sensing by Multipass Raman Scattering鈥�, .

(47) J. Singh and A. Muller, 鈥淎mbient Hydrocarbon Detection with an Ultra-Low-Loss Cavity Raman Analyzer鈥�, .

(46) J. Singh and A. Muller, 鈥淚sotopic trace analysis of water vapor with multipass cavity Raman scattering鈥�, .

(45) A. Biswas, S. Moka, A. Muller, and A. B. Parthasarathy, 鈥淔ast diffuse correlation spectroscopy with a low-cost, fiber-less embedded diode laser鈥�, .

(44) J. Gomez Velez and A. Muller. 鈥淪pontaneous Raman scattering at trace gas concentrations with a pressurized external multipass cavity鈥�, .

(43) G. S. Solomon, A. Muller, and E. Flagg, 鈥淐hapter seven 鈥� quantum light from optically dressed quantum dot states in microcavities,鈥� in .

(42) Y. Nieves and A. Muller, 鈥淭hird-order photon cross-correlations in resonance fluorescence鈥�, .

(41) J. Gomez Velez and A. Muller, 鈥淭race gas sensing using diode-pumped collinearly detected spontaneous Raman scattering enhanced by a multipass cell鈥�, .

(40) Y. Nieves and A. Muller, 鈥淭hird-order frequency-resolved photon correlations in resonance fluorescence鈥�, .

(39) K. Konthasinghe, J. Gomez Velez, M. Peiris, Y. Nieves, L. T. M. Profeta, and A. Muller, 鈥淒ynamics of light-induced thermomechanical mirror deformations in high-finesse Fabry鈥揚erot microresonators鈥�, .

(38) J. Gomez Velez and A. Muller, 鈥淧urcell-enhanced microcavity Raman scattering from pressurized gases鈥�, .

(37) M. Peiris, K. Konthasinghe, and A. Muller, 鈥淔ranson Interference Generated by a Two-Level System鈥�, .

(36) K. Konthasinghe, J. Gomez Velez, A. J. Hopkins, M. Peiris, L. T. M. Profeta, Y. Nieves, and A. Muller, 鈥淪elf-sustained photothermal oscillations in high-finesse Fabry-Perot microcavities鈥�, .

(35) B. Petrak, J. Cooper, K. Konthasinghe, M. Peiris, N. Djeu, A. J. Hopkins, and A. Muller, 鈥淚sotopic gas analysis through Purcell cavity enhanced Raman scattering鈥�, .

(34) K. Konthasinghe, M. Peiris, B. Petrak, Y. Yu, Z. C. Niu, and A. Muller, 鈥淐orrelations in Pulsed Resonance Fluorescence鈥�, .

(33) M. Peiris, B. Petrak, K. Konthasinghe, Y. Yu, Z. C. Niu, and A. Muller, 鈥淭wo-Color Photon Correlations of the Light Scattered by a Quantum Dot鈥�, .

(32) B. Petrak, M. Peiris, and A. Muller, 鈥淪olid Optical Ring Interferometer for High-Throughput Feedback-Free Spectral Analysis and Filtering鈥�, .

(31) K. Konthasinghe, K. Fitzmorris, M. Peiris, A. J. Hopkins, B. Petrak, D. K. Killinger, and A. Muller, 鈥淟aser-Induced Fluorescence from N2+ Ions Generated by a Corona Discharge in Ambient Air鈥�, .

(30) B. Petrak, N. Djeu, and A. Muller, 鈥淐oherent Anti-Stokes Raman Scattering in a High-Finesse Microcavity鈥�, .

(29) K. Konthasinghe, M. Peiris, and A. Muller, 鈥淩esonant light scattering of a laser frequency comb by a quantum dot鈥�, .

(28) M. Peiris, K. Konthasinghe, Y. Yu, Z. C. Niu, and A. Muller, 鈥淏ichromatic Resonant Light Scattering from a Quantum Dot鈥�, .

(27) B. Petrak, N. Djeu, and A. Muller, 鈥淧urcell Enhanced Raman Scattering from Atmospheric Gases in a High-Finesse Microcavity鈥�, .

(26) K. Konthasinghe, M. Peiris, Y. Yu, M. F. Li, J. F. He, L. J. Wang, H. Q. Ni, Z. C. Niu, C. K. Shih, and A. Muller, 鈥淔ield-Field and Photon-Photon Correlations of Light Scattered by Two Remote Two-Level InAs Quantum Dots on the Same Substrate鈥�, .

(25) G. Zhao, Y. Zhang, D. G. Deppe, K. Konthasinghe, and A. Muller, 鈥淏uried heterostructure vertical-cavity surface-emitting laser with semiconductor mirrors鈥�, .

(24) K. Konthasinghe, J. Walker, M. Peiris, C. K. Shih, Y. Yu, M. F. Li, J. F. He, L. J. Wang, H. Q. Ni, Z. C. Niu, and A. Muller, 鈥淐oherent versus Incoherent Light Scattering from a Quantum Dot鈥�, .

(23) B. Petrak, K. Konthasinghe, S. Perez, and A. Muller, 鈥淔eedback-controlled laser fabrication of micromirror substrates鈥�, .

(22) S. V. Polyakov, A. Muller, E. B. Flagg, A. Ling, N. Borjemscaia, E. Van Keuren, A. L. Migdall, and G. S. Solomon, 鈥淐oalescence of Single Photons Emitted by Disparate Single-Photon Sources: The Example of InAs Quantum Dots and Parametric Down-Conversion Sources鈥�, .

(21) M. Metcalfe, S. Carr, A. Muller, G. S. Solomon, and J. Lawall, 鈥淩esolved sideband emission from dynamically strained quantum dots鈥�, .

(20) A. Muller, E. B. Flagg, J. Lawall, and G. S. Solomon, 鈥淯ltrahigh finesse Fabry-Perot microcavity with small mode volume鈥�, .

(19) E. B. Flagg, A. Muller, S.V. Polyakov, A. Ling, A. L. Migdall, and G. S. Solomon, 鈥淭wo-Photon Interference from Separate Quantum Dots鈥�, .

(18) A. Muller, E. B. Flagg, M. Metcalfe, J. Lawall, and G. S. Solomon, 鈥淐oupling an epitaxial quantum dot to a fiber-based external-mirror microcavity鈥�, .

(17) M. Metcalfe, A. Muller, G. S. Solomon, and J. Lawall, 鈥淎ctive feedback of a Fabry-Perot cavity to the emission of a single InAs/GaAs quantum dot鈥�, .

(16) A. Muller, W. Fang, J. Lawall, and G. S. Solomon, 鈥淐reating Polarization-Entangled Photon Pairs from a Semiconductor Quantum Dot Using the Optical Stark Effect鈥�, .

(15) A. Muller, W. Fang, J. Lawall, and G. S. Solomon, 鈥淓mission spectrum of a dressed exciton-biexciton complex in a semiconductor quantum dot鈥�, .

(14) T. Tran, A. Muller, C. K. Shih, P. S. Wong, G. Balakrishnan, N. Nuntawong, J. Tatebayashi, and D. L. Huffaker, 鈥淪ingle dot spectroscopy of site-controlled InAs quantum dots nucleated on GaAs nanopyramids鈥�, .

(13) E. B. Flagg, A. Muller, J. W. Robertson, S. Founta, D. G. Deppe, M. Xiao, W. Ma, G. J. Salamo, C. K. Shih, "Resonantly driven coherent oscillations in a solid-state quantum emitter", .

(12) A. Muller, E. B. Flagg, P. Bianucci, X. Y. Wang, D. G. Deppe, W. Ma, J. Zhang, G. J. Salamo, M. Xiao, and C. K. Shih, 鈥淩esonance Fluorescence From a Coherently-Driven Semiconductor Quantum Dot in a Cavity鈥�, .

(11) A. Muller, D. Lu, J. Ahn, D. Gazula, S. Quadery, S. Freisem, D.G. Deppe and C.K. Shih, 鈥淏uried All-Epitaxial Microcavity for Cavity-QED with Quantum Dots鈥�, . See also: research highlight, .

(10) Q.Q. Wang, A. Muller, M.T. Cheng, H.J. Zhou, P. Bianucci, and C.K. Shih, 鈥淚nternal and external polarization memory loss in single quantum dots鈥�, .

(9) A. Muller, C.K. Shih, J. Ahn, D. Gazula, and D.G. Deppe, 鈥淗igh Q (33 000) all-epitaxial microcavity for quantum dot vertical-cavity surface-emitting lasers and quantum light sources鈥�, .

(8) J. W. Keto, M. E. Becker, D. Kovar, G. Malyavanatham, A. Muller, D. T. O'Brien, C. K. Shih, J. Wang, 鈥淣anoparticles of Er-doped glass produced by laser ablation of microparticles鈥�, .

(7) A. Muller, C.K. Shih, J. Ahn, D. Lu, and D.G. Deppe, 鈥淚solated single quantum dot emitters in all-epitaxial micro-cavities鈥�, .

(6) A. Muller, P. Bianucci, C. Piermarocchi, M. Fornari, I.C. Robin, R. Andr茅, and C.K. Shih, 鈥淭ime-Resolved Spectroscopy of Individual Impurity Centers in ZnSe鈥�, .

(5) Q.Q. Wang, A. Muller, M.T. Cheng, H.J. Zhou, P. Bianucci, and C.K. Shih, 鈥淐oherent Control of a V-Type Three-Level System in a Single Quantum Dot鈥�, .

(4) Q.Q. Wang, A. Muller, P. Bianucci, C.K. Shih, and Q.K. Xue, 鈥淨uality factors of qubit rotations in single semiconductor quantum dots鈥�, .

(3) Q.Q. Wang, A. Muller, P. Bianucci, E. Rossi, Q. K. Xue, T. Takagahara, C. Piermarocchi, A.H. MacDonald, and C.K. Shih, 鈥淒ecoherence processes during optical manipulation of excitonic qubits in semiconductor quantum dots鈥�, .

(2) P. Bianucci, A. Muller, Q.Q. Wang, C. Piermarocchi, and C.K. Shih, 鈥淓xperimental realization of the one qubit Deutsch-Jozsa algorithm in a quantum dot鈥�, .

(1) A. Muller, Q.Q. Wang, P. Bianucci, C.K. Shih and Q.K. Xue, 鈥淒etermination of anisotropic dipole moments in self-assembled quantum dots using Rabi oscillations鈥�, .