Quantenkommunikations Systeme
Publikationen
Auf dieser Seite werden Publikationen der jAG Quantenkommunikations Systeme in Form von Artikeln in Fachjournalen, Buchbeiträgen und Patenten sowie Konferenzbeiträgen gesammelt. Untenstehende Tabelle fasst die Publikationstatistik des Nachwuchsgruppenleiters Dr. Tobias Heindel zusammen.
| Paper (peer-reviewed) | 59 (2x Nat. Commun., 1x npj Quantum Inf., 1x PRL, 18x APL, ...) |
| Eingeladene Vorträge | 38 (auf Konferenzen (16), Sommer-/Graduiertenschulen, Gruppenseminare (15), etc.) |
| Buchkapitel | 3 (Springer 2017, 2x Springer 2020) |
| Patente | 1 |
| h-Index | 33 (Google Scholar → Profil) |
| Zitate | 3219 (Google Scholar) |
Ausgewählte Publikationen
Artikel in Fachjournalen
2023
Rickert,
Lucas;
Betz,
Fridtjof;
Plock,
Matthias;
Burger,
Sven;
Heindel,
Tobias
High-performance designs for fiber-pigtailed quantum-light sources based on quantum dots in electrically-controlled circular Bragg gratings
Opt. Express, 31 (9) :14750–14770
April 2023
Herausgeber: Optica Publishing Group
High-performance designs for fiber-pigtailed quantum-light sources based on quantum dots in electrically-controlled circular Bragg gratings
Opt. Express, 31 (9) :14750–14770
April 2023
Herausgeber: Optica Publishing Group
Gao,
Timm;
Helversen,
Martin von;
Antón-Solanas,
Carlos;
Schneider,
Christian;
Heindel,
Tobias
Atomically-thin single-photon sources for quantum communication
npj 2D Materials and Applications, 7 (1) :4
2023
Atomically-thin single-photon sources for quantum communication
npj 2D Materials and Applications, 7 (1) :4
2023
Karli,
Yusuf;
Vajner,
Daniel A.;
Kappe,
Florian;
Hagen,
Paul C. A.;
Hansen,
Lena M.;
Schwarz,
René;
Bracht,
Thomas K.;
Schimpf,
Christian;
Silva,
Saimon F. Covre;
Walther,
Philip;
Rastelli,
Armando;
Axt,
Vollrath Martin;
Loredo,
Juan C.;
Remesh,
Vikas;
Heindel,
Tobias;
Reiter,
Doris E.;
Weihs,
Gregor
Controlling the Photon Number Coherence of Solid-state Quantum Light Sources for Quantum Cryptography
2023
Controlling the Photon Number Coherence of Solid-state Quantum Light Sources for Quantum Cryptography
2023
Holewa,
Paweł;
Zięba-Ostój,
Emilia;
Vajner,
Daniel A.;
Wasiluk,
Maja;
Gaál,
Benedek;
Sakanas,
Aurimas;
Burakowski,
Marek;
Mrowiński,
Paweł;
Krajnik,
Bartosz;
Xiong,
Meng;
Huck,
Alexander;
Yvind,
Kresten;
Gregersen,
Niels;
Musiał,
Anna;
Heindel,
Tobias;
Syperek,
Marcin;
Semenova,
Elizaveta
Scalable quantum photonic devices emitting indistinguishable photons in the telecom C-band
2023
Scalable quantum photonic devices emitting indistinguishable photons in the telecom C-band
2023
2022
Michl,
J.;
Palekar,
C. C.;
Tarasenko,
S. A.;
Lohof,
F.;
Gies,
C.;
Helversen,
M.;
Sailus,
R.;
Tongay,
S.;
Taniguchi,
T.;
Watanabe,
K.;
Heindel,
T.;
Rosa,
B.;
Rödel,
M.;
Shubina,
T.;
Höfling,
S.;
Reitzenstein,
S.;
Antón-Solanas,
C.;
Schneider,
C.
Intrinsic circularly polarized exciton emission in a twisted van der Waals heterostructure
Phys. Rev. B, 105 :L241406
Juni 2022
Herausgeber: American Physical Society
Intrinsic circularly polarized exciton emission in a twisted van der Waals heterostructure
Phys. Rev. B, 105 :L241406
Juni 2022
Herausgeber: American Physical Society
Gao,
T.;
Rickert,
L.;
Urban,
F.;
Große,
J.;
Srocka,
N.;
Rodt,
S.;
Musiał,
A.;
Żołnacz,
K.;
Mergo,
P.;
Dybka,
K.;
Urbańczyk,
W.;
Sȩk,
G.;
Burger,
S.;
Reitzenstein,
S.;
Heindel,
T.
A quantum key distribution testbed using a plug\&play telecom-wavelength single-photon source
Applied Physics Reviews, 9 (1) :011412
2022
A quantum key distribution testbed using a plug\&play telecom-wavelength single-photon source
Applied Physics Reviews, 9 (1) :011412
2022
Gao,
T.;
Helversen,
M.;
Antón-Solanas,
C.;
Schneider,
C.;
Heindel,
T.
Atomically-thin Single-photon Sources for Quantum Communication
npj 2D Materials & Applications :in-print
2022
Atomically-thin Single-photon Sources for Quantum Communication
npj 2D Materials & Applications :in-print
2022
Rickert,
L.;
Betz,
F.;
Plock,
M.;
Burger,
S.;
Heindel,
T.
High-performance designs for fiber-pigtailed quantum-light sources based on quantum dots in electrically-controlled circular Bragg gratings
arXiv :2212.04883
2022
High-performance designs for fiber-pigtailed quantum-light sources based on quantum dots in electrically-controlled circular Bragg gratings
arXiv :2212.04883
2022
Vajner,
D. A.;
Rickert,
L.;
Gao,
T.;
Kaymazlar,
K.;
Heindel,
T.
Quantum Communication Using Semiconductor Quantum Dots
Advanced Quantum Technologies, 2100116 :https://doi.org/10.1002/qute.202100116
2022
Quantum Communication Using Semiconductor Quantum Dots
Advanced Quantum Technologies, 2100116 :https://doi.org/10.1002/qute.202100116
2022
2021
Bracht,
T. K.;
Cosacchi,
M.;
Seidelmann,
T.;
Cygorek,
M.;
Vagov,
A.;
Axt,
V. M.;
Heindel,
T.;
Reiter,
D. E.
Swing-Up of Quantum Emitter Population Using Detuned Pulses
PRX Quantum, 2 :040354
Dezember 2021
Herausgeber: American Physical Society
Swing-Up of Quantum Emitter Population Using Detuned Pulses
PRX Quantum, 2 :040354
Dezember 2021
Herausgeber: American Physical Society
Rickert,
L.;
Schröder,
F.;
Gao,
T.;
Schneider,
C.;
Höfling,
S.;
Heindel,
T.
Fiber-pigtailing quantum-dot cavity-enhanced light emitting diodes
Applied Physics Letters, 119 (13) :131104
2021
Fiber-pigtailing quantum-dot cavity-enhanced light emitting diodes
Applied Physics Letters, 119 (13) :131104
2021
Michl,
J.;
Tarasenko,
S. A.;
Lohof,
F.;
Gies,
G.;
Helversen,
M.;
Sailus,
R.;
Tongay,
S.;
Taniguchi,
T.;
Watanabe,
K.;
Heindel,
T.;
Reitzenstein,
S.;
Shubina,
T.;
Höfling,
S.;
Antón-Solanas,
C.;
Schneider,
C.
Intrinsic circularly-polarized exciton emission in a twisted van-der-Waals heterostructure
arXiv :2105.09948
2021
Intrinsic circularly-polarized exciton emission in a twisted van-der-Waals heterostructure
arXiv :2105.09948
2021
2020
Georgieva,
H.;
López,
M.;
Hofer,
H.;
Christinck,
J.;
Rodiek,
B.;
Schnauber,
P.;
Kaganskiy,
A.;
Heindel,
T.;
Rodt,
S.;
Reitzenstein,
S.;
Kück,
S.
Radiometric characterization of a triggered narrow-bandwidth single-photon source and its use for the calibration of silicon single-photon avalanche detectors
Metrologia, 57 (5) :055001
September 2020
Herausgeber: IOP Publishing
Radiometric characterization of a triggered narrow-bandwidth single-photon source and its use for the calibration of silicon single-photon avalanche detectors
Metrologia, 57 (5) :055001
September 2020
Herausgeber: IOP Publishing
Kupko,
T.;
Helversen,
M.;
Rickert,
L.;
Schulze,
J.-H.;
Strittmatter,
A.;
Gschrey,
M.;
Rodt,
S.;
Reitzenstein,
S.;
Heindel,
T.
Tools for the performance optimization of single-photon quantum key distribution
npj Quantum Information, 6 (1) :29
März 2020
Tools for the performance optimization of single-photon quantum key distribution
npj Quantum Information, 6 (1) :29
März 2020
Rodt,
S.;
Reitzenstein,
S.;
Heindel,
T.
Deterministically fabricated solid-state quantum-light sources
Journal of Physics: Condensed Matter, 32 :153003
Januar 2020
Herausgeber: IOP Publishing
Deterministically fabricated solid-state quantum-light sources
Journal of Physics: Condensed Matter, 32 :153003
Januar 2020
Herausgeber: IOP Publishing
Schmidt,
M.;
Helversen,
M.;
Fischbach,
S.;
Kaganskiy,
A.;
Schmidt,
R.;
Schliwa,
A.;
Heindel,
T.;
Rodt,
S.;
Reitzenstein,
S.
Deterministically fabricated spectrally-tunable quantum dot based single-photon source
Optical Materials Express, 10 (1) :76
2020
Herausgeber: The Optical Society
Deterministically fabricated spectrally-tunable quantum dot based single-photon source
Optical Materials Express, 10 (1) :76
2020
Herausgeber: The Optical Society
Srocka,
N.;
Mrowinski,
P.;
Große,
J.;
Helversen,
M.;
Heindel,
T.;
Rodt,
S.;
Reitzenstein,
S.
Deterministically fabricated quantum dot single-photon source emitting indistinguishable photons in the telecom O-band
Applied Physics Letters, 116 (23) :231104
2020
Deterministically fabricated quantum dot single-photon source emitting indistinguishable photons in the telecom O-band
Applied Physics Letters, 116 (23) :231104
2020
2019
Rickert,
L.;
Kupko,
T.;
Rodt,
S.;
Reitzenstein,
S.;
Heindel,
T.
Optimized designs for telecom-wavelength quantum light sources based on hybrid circular Bragg gratings
Optics Express, 27 (25) :36824
Dezember 2019
Herausgeber: The Optical Society
Optimized designs for telecom-wavelength quantum light sources based on hybrid circular Bragg gratings
Optics Express, 27 (25) :36824
Dezember 2019
Herausgeber: The Optical Society
Bremer,
L.;
Fischbach,
S.;
Park,
S.-I.;
Rodt,
S.;
Song,
J.-D.;
Heindel,
T.;
Reitzenstein,
S.
Cesium-Vapor-Based Delay of Single Photons Emitted by Deterministically Fabricated Quantum Dot Microlenses
Advanced Quantum Technologies :1900071
September 2019
Herausgeber: Wiley
Cesium-Vapor-Based Delay of Single Photons Emitted by Deterministically Fabricated Quantum Dot Microlenses
Advanced Quantum Technologies :1900071
September 2019
Herausgeber: Wiley
Helversen,
M.;
Böhm,
J.;
Schmidt,
M.;
Gschrey,
M.;
J,
-H;
Schulze
;
Strittmatter,
A.;
Rodt,
S.;
Beyer,
J.;
Heindel,
T.;
Reitzenstein,
S.
Quantum Metrology of Solid-State Single-Photon Sources using Photon-Number-Resolving Detectors
New Journal of Physics, 21 :035007
Februar 2019
Herausgeber: IOP Publishing
Quantum Metrology of Solid-State Single-Photon Sources using Photon-Number-Resolving Detectors
New Journal of Physics, 21 :035007
Februar 2019
Herausgeber: IOP Publishing
2018
Schmidt,
M.;
Helversen,
M.;
López,
M.;
Gericke,
F.;
Schlottmann,
E.;
Heindel,
T.;
Kück,
S.;
Reitzenstein,
S.;
Beyer,
J.
Photon-Number-Resolving Transition-Edge Sensors for the Metrology of Quantum Light Sources
Journal of Low Temperature Physics, 193 :1243
Mai 2018
ISSN: 1573-7357
Photon-Number-Resolving Transition-Edge Sensors for the Metrology of Quantum Light Sources
Journal of Low Temperature Physics, 193 :1243
Mai 2018
ISSN: 1573-7357
Kaganskiy,
A.;
Fischbach,
S.;
Strittmatter,
A.;
Rodt,
S.;
Heindel,
T.;
Reitzenstein,
S.
Enhancing the photon-extraction efficiency of site-controlled quantum dots by deterministically fabricated microlenses
Optics Communications, 413 :162–166
April 2018
Herausgeber: Elsevier BV
Enhancing the photon-extraction efficiency of site-controlled quantum dots by deterministically fabricated microlenses
Optics Communications, 413 :162–166
April 2018
Herausgeber: Elsevier BV
Schnauber,
P.;
Schall,
J.;
Bounouar,
S.;
Höhne,
T.;
Park,
S.-I.;
Ryu,
G.-H.;
Heindel,
T.;
Burger,
S.;
Song,
J.-D.;
Rodt,
S.;
Reitzenstein,
S.
Deterministic Integration of Quantum Dots into on-Chip Multimode Interference Beamsplitters Using in Situ Electron Beam Lithography
Nano Lett., 18 (4) :2336–2342
April 2018
Deterministic Integration of Quantum Dots into on-Chip Multimode Interference Beamsplitters Using in Situ Electron Beam Lithography
Nano Lett., 18 (4) :2336–2342
April 2018
Gericke,
F.;
Segnon,
M.;
Helversen,
M.;
Hopfmann,
C.;
Heindel,
T.;
Schneider,
C.;
Höfling,
S.;
Kamp,
M.;
Musiał,
A.;
Porte,
X.;
Gies,
C.;
Reitzenstein,
S.
Controlling the gain contribution of background emitters in few-quantum-dot microlasers
New Journal of Physics, 20 (2) :023036
2018
Controlling the gain contribution of background emitters in few-quantum-dot microlasers
New Journal of Physics, 20 (2) :023036
2018
Kaganskiy,
A.;
Gericke,
F.;
Heuser,
T.;
Heindel,
T.;
Porte,
X.;
Reitzenstein
Micropillars with a controlled number of site-controlled quantum dots
Applied Physics Letters, 112 (7) :071101
2018
Micropillars with a controlled number of site-controlled quantum dots
Applied Physics Letters, 112 (7) :071101
2018
Buchbeiträge & Patente
Buchbeiträge:
- U. W. Pohl, A. Strittmatter, A. Schliwa, M. Lehmann, T. Niermann, T. Heindel, S. Reitzenstein, M. Kantner, U. Bandelow, T. Koprucki, und H.-J. Wünsche: Stressor-Induced Site Control of Quantum Dots for Single-Photon Sources, published in „Semiconductor Nanophotonics“, Springer 2020, ISBN: 978-3-030-35655-2, edited by M. Kneissl, A. Knorr, S. Reitznstein, and A. Hoffmann Link to Book
- S. Rodt, P.-I. Schneider, L. Zschiedrich, T. Heindel, S. Bounouar, M. Kantner, T. Koprucki, U. Bandelow, S. Burger, und S. Reitzenstein: Deterministic Quantum Devices for Optical Quantum Communication, erschienen in „Semiconductor Nanophotonics“, Springer 2020, ISBN: 978-3-030-35655-2, edited by M. Kneissl, A. Knorr, S. Reitznstein, and A. Hoffmann Link to Book
- T. Heindel, S. Rodt, und S. Reitzenstein: Single-Photon Sources Based on Deterministic Quantum-Dot Microlenses, published in „Quantum Dots for Quantum Information Technologies“, Page 199 - 232, Springer 2017, ISBN: 978-3-319-56377-0, edited by P. Michler Link to Book
Patente:
- A. Schlehahn, T. Heindel, S. Rodt, and S. Reitzenstein: Optoelectronic Device, EP3088927 A1, US9599782 B2, March2017 Link to Patent
Selektierte Konferenzbeiträge
- Lucas Rickert, Timm Gao, Felix Urban, Jan Große, Nicole Srocka, Sven Rodt, Anna Musiał, Kinga Żołnacz, Paweł Mergo, Kamil Dybka, Wacław Urbańczyk, Grzegorz Sęk, Sven Burger, Stephan Reitzenstein, Tobias Heindel: A Plug&Play Telecom-Wavelength Single-Photon Source for Quantum Key Distribution, Quantum 2.0 2022, Paper QTu4C.6.
- L. Rickert, T. Gao, F. Urban, J. Große, N. Srocka, S. Rodt, A. Musiał, K. Żołnacz, P. Mergo, K. Dybka, W. Urbańczyk, G. Sęk, S. Burger, S. Reitzenstein, T. Heindel: A Quantum Key Distribution Testbed Using Plug&Play Telecom-Wavelength Single-Photons, Quantum Information and Measurement (QIM) Conference 2022, DOI:10.1364/QIM.2021.M2C.1.
- T. Heindel, A. Thoma, M. von Helversen, M. Schmidt, A. Schlehahn, M. Gschrey, P. Schnauber, J.-H. Schulze, A. Strittmatter, J. Beyer, S. Rodt, A. Carmele, A. Knorr, und S. Reitzenstein: A bright triggered twin-photon source in the solid state, Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC) 2017, DOI:10.1109/CLEOE-EQEC.2017.8087338.
- T. Heindel, M. Rau, S. Unsleber, T. Braun, J. Fischer, C. Schneider, S. Frick, S. Nauerth, G. Vest, S. Reitzenstein, A. Forchel, S. Höfling, H. Weinfurter, und M. Kamp: Free Space Quantum Key Distribution over 500 Meters using Electrically Triggered Quantum Dot Single-Photon Sources, Quantum Information and Measurement (QIM) Conference 2014, QW3A. 4, DOI:10.1364/QIM.2014.QW3A.4.
- T. Heindel, C. Schneider, M. Lermer, S. Höfling, S. Reitzenstein, L. Worschech, und A. Forchel: Highly efficient electrically triggered quantum dot micropillar single photon source, Journal of Physics Conference Series 09/2010; 245(1), DOI:10.1088/1742-6596/245/1/012005.
