NewEvery arXiv paper, its researchers & institutions — mapped.
papers

Publications (13)

cond-mat.mes-hall2011

Optical control of one and two hole spins in interacting quantum dots

Alex Greilich, Samuel G. Carter, Danny Kim +2

cond-mat.mes-hall2013

Optical measurement and modeling of interactions between two hole or two electron spins in coupled InAs quantum dots

Alex Greilich, Ştefan C. Bădescu, Danny Kim +2

cond-mat.mes-hall2015

Non-local nuclear spin quieting in quantum dot molecules: Optically-induced extended two-electron spin coherence time

Colin M. Chow, Aaron M. Ross, Danny Kim +4

quant-ph2008

Optical Spin Initialization and Non-Destructive Measurement in a Quantum Dot Molecule

Danny Kim, Sophia E. Economou, Stefan C. Badescu +5

cond-mat.mes-hall2013

Strong Hyperfine-Induced Modulation of an Optically-Driven Hole Spin in an InAs Quantum Dot

Samuel G. Carter, Sophia E. Economou, Alex Greilich +4

cond-mat.mes-hall2012

Scalable qubit architecture based on holes in quantum dot molecules

Sophia E. Economou, Juan I. Climente, Antonio Badolato +3

cond-mat.mes-hall2012

Persistent narrowing of nuclear-spin fluctuations in InAs quantum dots using laser excitation

Bo Sun, Colin Ming Earn Chow, Duncan G. Steel +3

quant-ph2019

Direct Excitation of a Single Quantum Dot with Cavity-SPDC Photons

Uttam Paudel, Jia Jun Wong, Michael Goggin +5

quant-ph2014

Cavity-stimulated Raman emission from a single quantum dot spin

Timothy M. Sweeney, Samuel G. Carter, Allan S. Bracker +7

quant-ph2012

Quantum control of a spin qubit coupled to a photonic crystal cavity

Samuel G. Carter, Timothy M. Sweeney, Mijin Kim +7

quant-ph2018

Generation of frequency sidebands on single photons with indistinguishability from quantum dots

Uttam Paudel, Alexander P. Burgers, Michael K. Yakes +3

cond-mat.mes-hall2010

Ultrafast optical control of entanglement between two quantum dot spins

Danny Kim, Samuel G. Carter, Alex Greilich +2

cond-mat.mes-hall2008

Fine structure and optical pumping of spins in individual semiconductor quantum dots

Allan S. Bracker, Daniel Gammon, Vladimir L. Korenev