Thomas Lettner
Thomas Lettner
Verified email at kth.se
Title
Cited by
Cited by
Year
On-demand generation of background-free single photons from a solid-state source
L Schweickert, KD Jöns, KD Zeuner, SF Covre da Silva, H Huang, ...
Applied Physics Letters 112 (9), 093106, 2018
1192018
Strain-tuning of the optical properties of semiconductor nanomaterials by integration onto piezoelectric actuators
J Martín-Sánchez, R Trotta, A Mariscal, R Serna, G Piredda, S Stroj, ...
Semiconductor Science and Technology 33 (1), 013001, 2017
392017
Strain-tunable quantum integrated photonics
AW Elshaari, E Büyüközer, IE Zadeh, T Lettner, P Zhao, E Schöll, ...
Nano letters 18 (12), 7969-7976, 2018
342018
Resonance fluorescence of gaas quantum dots with near-unity photon indistinguishability
E Schöll, L Hanschke, L Schweickert, KD Zeuner, M Reindl, ...
Nano letters 19 (4), 2404-2410, 2019
332019
Reversible Control of In‐Plane Elastic Stress Tensor in Nanomembranes
J Martín‐Sánchez, R Trotta, G Piredda, C Schimpf, G Trevisi, L Seravalli, ...
Advanced Optical Materials 4 (5), 682-687, 2016
312016
Electrically-pumped wavelength-tunable GaAs quantum dots interfaced with rubidium atoms
H Huang, R Trotta, Y Huo, T Lettner, JS Wildmann, J Martín-Sánchez, ...
ACS photonics 4 (4), 868-872, 2017
232017
A stable wavelength-tunable triggered source of single photons and cascaded photon pairs at the telecom C-band
KD Zeuner, M Paul, T Lettner, C Reuterskiöld Hedlund, L Schweickert, ...
Applied Physics Letters 112 (17), 173102, 2018
212018
Comparison of different bonding techniques for efficient strain transfer using piezoelectric actuators
D Ziss, J Martín-Sánchez, T Lettner, A Halilovic, G Trevisi, R Trotta, ...
Journal of applied physics 121 (13), 135303, 2017
122017
Optimizing the stoichiometry of ultrathin NbTiN films for high-performance superconducting nanowire single-photon detectors
J Zichi, J Chang, S Steinhauer, K Von Fieandt, JWN Los, G Visser, ...
Optics Express 27 (19), 26579-26587, 2019
92019
ACS Photonics 4, 868 (2017). 19P. Kok, WJ Munro, K. Nemoto, TC Ralph, JP Dowling, and GJ Milburn
RT Huang, Y Huo, T Lettner, JS Wildmann, J Martýn-Sánchez, D Huber, ...
Rev. Mod. Phys 79, 135, 2007
62007
On–demand solid–state single–photon source with 99.99% purity
L Schweickert, KD Jöns, KD Zeuner, SFC da Silva, H Huang, T Lettner, ...
arXiv preprint arXiv:1712.06937, 2017
52017
NbTiN thin films for superconducting photon detectors on photonic and two-dimensional materials
S Steinhauer, L Yang, S Gyger, T Lettner, C Errando-Herranz, KD Jöns, ...
Applied Physics Letters 116 (17), 171101, 2020
32020
Electromagnetically induced transparency of on-demand single photons in a hybrid quantum network
L Schweickert, KD Jöns, M Namazi, G Cui, T Lettner, KD Zeuner, ...
arXiv preprint arXiv:1808.05921, 2018
32018
GaAs Quantum Dot in a Parabolic Microcavity Tuned to 87Rb D1
T Lettner, KD Zeuner, E Schöll, H Huang, S Scharmer, SFC da Silva, ...
ACS photonics 7 (1), 29-35, 2019
22019
On-demand generation of entangled photon pairs in the telecom C-band for fiber-based quantum networks
KD Zeuner, KD Jöns, L Schweickert, CR Hedlund, CN Lobato, T Lettner, ...
arXiv preprint arXiv:1912.04782, 2019
22019
NbTiN low timing jitter single-photon detectors with unity internal efficiency at 1550 nm and 2.5 K
J Zichi, J Chang, S Steinhauer, K von Fieandt, JWN Los, G Visser, ...
arXiv preprint arXiv:1905.06091, 2019
22019
Novel piezoelectric actuator for full in-plane stress field control on GaAs nanomembranes
T Lettner
Universität Linz, 2015
22015
Origin of Antibunching in Resonance Fluorescence
L Hanschke, L Schweickert, JCL Carreńo, E Schöll, KD Zeuner, T Lettner, ...
Physical Review Letters 125 (17), 170402, 2020
2020
Proximitized Josephson junctions in highly-doped InAs nanowires robust to optical illumination
L Yang, S Steinhauer, E Strambini, T Lettner, L Schweickert, M Versteegh, ...
Nanotechnology, 2020
2020
Resonance fluorescence of GaAs quantum dots with near-unity photon indistinguishability
L Hanschke, E Schöll, L Schweickert, KD Zeuner, M Reindl, SFC da Silva, ...
Quantum Nanophotonic Materials, Devices, and Systems 2020 11471, 1147104, 2020
2020
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