By Associate Professor Arne Laucht

Preprints

Dehollain JP; Simmons S; Muhonen JT; Kalra R; Laucht A; Hudson F; Itoh KM; Jamieson DN; McCallum JC; Dzurak AS; Morello A, 2015, Bell's inequality violation with spins in silicon, http://dx.doi.org/10.1038/nnano.2015.262

Laucht A; Muhonen JT; Mohiyaddin FA; Kalra R; Dehollain JP; Freer S; Hudson FE; Veldhorst M; Rahman R; Klimeck G; Itoh KM; Jamieson DN; McCallum JC; Dzurak AS; Morello A, 2015, Electrically controlling single spin qubits in a continuous microwave field, http://dx.doi.org/10.48550/arxiv.1503.05985

Veldhorst M; Yang CH; Hwang JCC; Huang W; Dehollain JP; Muhonen JT; Simmons S; Laucht A; Hudson FE; Itoh KM; Morello A; Dzurak AS, 2014, A Two Qubit Logic Gate in Silicon, http://dx.doi.org/10.48550/arxiv.1411.5760

Muhonen JT; Laucht A; Simmons S; Dehollain JP; Kalra R; Hudson FE; Freer S; Itoh KM; Jamieson DN; McCallum JC; Dzurak AS; Morello A, 2014, Quantifying the quantum gate fidelity of single-atom spin qubits in silicon by randomized benchmarking, http://dx.doi.org/10.1088/0953-8984/27/15/154205

Muhonen JT; Dehollain JP; Laucht A; Hudson FE; Sekiguchi T; Itoh KM; Jamieson DN; McCallum JC; Dzurak AS; Morello A, 2014, Storing quantum information for 30 seconds in a nanoelectronic device, http://dx.doi.org/10.1038/nnano.2014.211

Laucht A; Kalra R; Muhonen JT; Dehollain JP; Mohiyaddin FA; Hudson F; McCallum JC; Jamieson DN; Dzurak AS; Morello A, 2013, High-fidelity adiabatic inversion of a $^{31}\mathrm{P}$ electron spin qubit in natural silicon, http://dx.doi.org/10.48550/arxiv.1312.4647

Kalra R; Laucht A; Hill C; Morello A, 2013, Robust two-qubit gates for donors in silicon controlled by hyperfine interactions, http://dx.doi.org/10.1103/PhysRevX.4.021044

Laussy FP; Jovanov V; del Valle E; Bechtold A; Kapfinger S; Müller K; Koch S; Laucht A; Eissfeller T; Bichler M; Abstreiter G; Finley JJ, 2012, Fluctuation induced luminescence sidebands in the emission spectra of resonantly driven quantum dots, http://dx.doi.org/10.48550/arxiv.1207.6952

Laucht A; Günthner T; Pütz S; Saive R; Frédérick S; Hauke N; Bichler M; Amann M-C; Holleitner AW; Kaniber M; Finley JJ, 2012, Broadband Purcell enhanced emission dynamics of quantum dots in linear photonic crystal waveguides, http://dx.doi.org/10.48550/arxiv.1205.1286

Laucht A; Pütz S; Günthner T; Hauke N; Saive R; Frédérick S; Bichler M; Amann M-C; Holleitner AW; Kaniber M; Finley JJ, 2012, A Waveguide-Coupled On-Chip Single Photon Source, http://dx.doi.org/10.48550/arxiv.1201.5153

Laussy FP; del Valle E; Schrapp M; Laucht A; Finley JJ, 2011, Climbing the Jaynes-Cummings ladder by photon counting, http://dx.doi.org/10.48550/arxiv.1104.3564

Hauke N; Lichtmannecker S; Zabel T; Laussy FP; Laucht A; Kaniber M; Bougeard D; Abstreiter G; Finley JJ; Arakawa Y, 2011, A Correlation between the Emission Intensity of Self-Assembled Germanium Islands and the Quality Factor of Silicon Photonic Crystal Nanocavities, http://dx.doi.org/10.48550/arxiv.1103.3748

Laussy FP; Laucht A; del Valle E; Finley JJ; Villas-Bôas JM, 2011, Cavity versus dot emission in strongly coupled quantum dots-cavity systems, http://dx.doi.org/10.48550/arxiv.1102.3874

Völk S; Schülein FJR; Knall F; Wixforth A; Krenner HJ; Laucht A; Finley JJ; Riikonen J; Mattila M; Sopanen M; Lipsanen H; He J; Truong TA; Kim H; Petroff PM, 2010, Recent progress towards acoustically mediated carrier injection into individual nanostructures for single photon generation, http://dx.doi.org/10.48550/arxiv.1011.5048

Laucht A; Hauke N; Neumann A; Günthner T; Hofbauer F; Mohtashami A; Müller K; Böhm G; Bichler M; Amann M-C; Kaniber M; Finley JJ, 2010, Non-resonant feeding of photonic crystal nanocavity modes by quantum dots, http://dx.doi.org/10.48550/arxiv.1007.3032

Laucht A; Villas-Bôas JM; Stobbe S; Hauke N; Hofbauer F; Böhm G; Lodahl P; Amann M-C; Kaniber M; Finley JJ, 2010, Mutual Coupling of two Semiconductor Quantum Dots via an Optical Nanocavity Mode, http://dx.doi.org/10.48550/arxiv.0912.3685

Laucht A; Kaniber M; Mohtashami A; Hauke N; Bichler M; Finley JJ, 2010, Temporal Monitoring of Non-resonant Feeding of Semiconductor Nanocavity Modes by Quantum Dot Multiexciton Transitions, http://dx.doi.org/10.48550/arxiv.1003.2946

Hauke N; Zabel T; Mueller K; Kaniber M; Laucht A; Bougeard D; Abstreiter G; Finley JJ; Arakawa Y, 2009, Enhanced photoluminescence emission from two-dimensional silicon photonic crystal nanocavities, http://dx.doi.org/10.48550/arxiv.0912.0774

Hohenester U; Laucht A; Kaniber M; Hauke N; Mohtashami A; Seliger M; Finley JJ, 2009, Phonon-assisted transitions from quantum dot excitons to cavity photons, http://dx.doi.org/10.48550/arxiv.0910.3749

Schülein FJR; Laucht A; Riikonen J; Mattila M; Sopanen M; Lipsanen H; Finley JJ; Wixforth A; Krenner HJ, 2009, Cascaded exciton emission of an individual strain-induced quantum dot, http://dx.doi.org/10.48550/arxiv.0908.1665

Laucht A; Hauke N; Villas-Bôas JM; Hofbauer F; Kaniber M; Böhm G; Finley JJ, 2009, Dephasing of quantum dot exciton polaritons in electrically tunable nanocavities, http://dx.doi.org/10.48550/arxiv.0904.4759

Laucht A; Hofbauer F; Hauke N; Angele J; Stobbe S; Kaniber M; Böhm G; Lodahl P; Amann M-C; Finley JJ, 2008, Electrical control of spontaneous emission and strong coupling for a single quantum dot, http://dx.doi.org/10.48550/arxiv.0810.3010

Kaniber M; Neumann A; Laucht A; Bichler M; Amann M-C; Finley JJ, 2008, Cavity-resonant excitation for efficient single photon generation, http://dx.doi.org/10.48550/arxiv.0803.2403

Kaniber M; Laucht A; Neumann A; Villas-Boas JM; Bichler M; Amann M-C; Finley JJ, 2008, Investigation of Non Resonant Dot - Cavity Coupling in Two Dimensional Photonic Crystal Nanocavities, http://dx.doi.org/10.48550/arxiv.0802.2008

Kaniber M; Laucht A; Huerlimann T; Bichler M; Meyer R; Amann M-C; Finley JJ, 2007, Highly efficient single photon emission from single quantum dots within a two-dimensional photonic bandgap, http://dx.doi.org/10.48550/arxiv.0708.0944

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