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Publications

List of publications

2022
  • Self-Assembled Honeycomb Lattices of Dielectric Colloidal Nanospheres Featuring Photonic Dirac Cones
    Y. Kim, S. Wong, C. Seo, J.H. Yoon, G.H. Choi, J. Olthaus, D.E. Reiter, J. Kim, P.J. Yoo, T.T. Kim, S.S. Oh, and G.-R. Yi
    ACS Appl. Nano Mater. 5, 3386-3393 (2022)
  • Phonon Wave Packet Emission during State Preparation of a Semiconductor Quantum Dot using Different Schemes
    T.K. Bracht, T. Seidelmann, T. Kuhn, V.M. Axt, D.E. Reiter
    Phys. Status Solidi B 2022, 2100649
  • Deterministic Photon Storage and Readout in a Semimagnetic Quantum Dot–Cavity System Doped with a Single Mn Ion
    M. Cosacchi, T. Seidelmann, A. Mielnik-Pyszczorski, M. Neumann, T.K. Bracht, M. Cygorek, A. Vagov, D.E. Reiter, V.M. Axt
    Adv. Quantum Technol. 2022, 210013

2021

  • Swing-Up of Quantum Emitter Population Using Detuned Pulses
    T.K. Bracht, M. Cosacchi, T. Seidelmann, M. Cygorek, A. Vagov, V.M. Axt, T. Heindel, and D.E. Reiter
    PRX Quantum 2, 040354 (2021)
  • Phonon signatures in spectra of exciton polaritons in transition metal dichalcogenides
    F. Lengers, T. Kuhn, and D.E. Reiter
    Phys. Rev. B 104, L241301 (2021)
  • Electron Dynamics in a Two-Dimensional Nanobubble: A Two-Level System Based on Spatial Density
    R. Rosati, F. Lengers, C. Carmesin, M. Florian, T. Kuhn, F. Jahnke, M. Lorke, and D.E. Reiter
    Nano Lett. 2021, 21, 9896-9902
  • Comparison of the semiclassical and quantum optical field dynamics in a pulse-excited optical cavity with a finite number of quantum emitters
    K. Jürgens, F. Lengers, D. Groll, D.E. Reiter, D. Wigger, and T. Kuhn
    Phys. Rev. B 104, 205308 (2021)
  • Optically driven the radiative Auger transition
    C. Spinnler, L. Zhai, G.N. Nguyen, J. Ritzmann, A.D. Wieck, A. Ludwig, A. Javadi, D.E. Reiter, P. Machnikowski, R.J. Warburton and M.C. Löbl
    Nature Communications 12, 6575 (2021)
  • Accuracy of the Quantum Regression Theorem for Photon Emission from a Quantum Dot
    M. Cosacchi, T. Seidelmann, M. Cygorek, A. Vagov, D.E. Reiter, and V.M. Axt
    Phys. Rev. Lett. 127, 100402 (2021)
    Erratum: Phys. Rev. Lett. 128, 079901 (2022)
  • Optical Stark shift to control the dark exciton occupation of a quantum dot in a tilted magnetic field
    M. Neumann, F. Kappe, T.K. Bracht, M. Cosacchi, T. Seidelmann, V.M. Axt, G. Weihs, and D.E. Reiter
    Phys. Rev. B 104, 075428 (2021)
  • Optical Signals to Monitor the Dynamics of Phonon-Modified Rabi Oscillations in a Quantum Dot
    M.R. Klaßen and D.E. Reiter
    Ann. Physik 2021, 2100086
  • Schrödinger cat states in quantum-dot-cavity systems
    M. Cosacchi, T. Seidelmann, J. Wiercinski, M. Cygorek, A. Vagov, D.E. Reiter, and V.M. Axt
    Phys. Rev. Research 3, 023088 (2021)
  • Time-dependent switching of the photon entanglement type using a driven quantum emitter-cavity system
    T. Seidelmann, D.E. Reiter, M. Cosacchi, M. Cygorek, A. Vagov, and V.M. Axt
    Appl. Phys. Lett. 118, 164001 (2021)
  • Femtosecond Transfer and Manipulation of Persistent Hot-Trion Coherence in a Single CdSe/ZnSe Quantum Dot
    P. Henzler, C. Traum, M. Holtkemper, D. Nabben, M. Erbe, D.E. Reiter, T. Kuhn, S. Mahapatra, K. Brunner, D. V. Seletskiy, and A. Leitenstorfer
    Phys. Rev. Lett. 126, 067402 (2021)
  • Dark exciton preparation in a quantum dot by a longitudinal light field tuned to higher exciton states
    M. Holtkemper, G.F. Quinteiro, D.E. Reiter, and T. Kuhn
    Phys. Rev. Research 3, 013024 (2021)
  • Different Types of Photon Entanglement from a Constantly Driven Quantum Emitter Inside a Cavity
    T. Seidelmann, M. Cosacchi, M. Cygorek, D.E. Reiter, A. Vagov, and V.M. Axt
    Adv. Quantum Technol. 4, 2000108 (2021)

2020

  • Integration of Diamond-Based Quantum Emitters with Nanophotonic Circuits
    P.P.J. Schrinner, J. Olthaus, D.E. Reiter, and C. Schuck
    ACS Nano Lett. 2020, 20, 8170-8177
  • Phonon-mediated exciton capture in Mo-based transition metal dichalcogenides
    F. Lengers, T. Kuhn, and D.E. Reiter
    Phys. Rev. Research 2, 043160 (2020)
  • Selection rules for the excitation of quantum dots by spatially structured light beams: Application to the reconstruction of higher excited exciton wave functions
    M. Holtkemper, G.F. Quinteiro, D.E. Reiter, and T. Kuhn
    Phys. Rev. B 102, 165315 (2020)
  • On-demand generation of higher-order Fock states in quantum-dot-cavity systems
    M. Cosacchi, J. Wiercinski, T. Seidelmann, M. Cygorek, A. Vagov, D.E. Reiter, and V.M. Axt
    Phys. Rev. Research 2, 033489 (2020)
  • Semiclassical modeling of coupled quantum-dot-cavity systems: From polaritonlike dynamics to Rabi oscillations
    K. Jürgens, F. Lengers, T. Kuhn, and D.E. Reiter
    Phys. Rev. B 101, 235311 (2020)
  • Theory of the absorption line shape in monolayers of transition metal dichalcogenides
    F. Lengers, T. Kuhn, D.E. Reiter
    Phys. Rev. B 101, 155304 (2020)
  • Optimal Photonic Crystal Cavities for Coupling Nanoemitters to Photonic Integrated Circuits
    J. Olthaus, P.P.J. Schrinner, D.E. Reiter, C. Schuck
    Adv. Quantum Technol. 3, 1900084 (2020)

2019

2018

  • Dynamic theory of nanophotonic control of two-dimensional semiconductor nonlinearities
    S. Guazzotti, A. Pusch, D. E. Reiter, and O. Hess
    Phys. Rev. B 98, 245307 (2018)
  • Orbital angular momentum dichroism in nanoantennas
    R.M. Kerber, J.M. Fitzgerald, S.S. Oh, D.E. Reiter, and O. Hess
    Communications Physics 1, 87 (2018)
  • Coherent phonon lasing in a thermal quantum nanomachine
    P. Karwat, D.E. Reiter, T. Kuhn, and O. Hess
    Phys. Rev. A 98, 053855 (2018)
  • Spatial control of carrier capture in two-dimensional materials: Beyond energy selection rules
    R. Rosati, F. Lengers, D.E. Reiter, and T. Kuhn
    Phys. Rev. B 98, 195411 (2018)
  • Coulomb effects on the photoexcited quantum dynamics of electrons in a plasmonic nanosphere
    A. Crai, A. Pusch, D.E. Reiter, L. Román Castellanos, T. Kuhn, and O. Hess
    Phys. Rev. B 98, 165411 (2018)
  • Interaction of an Archimedean spiral structure with orbital angular momentum light
    R.M. Kerber, J.M. Fitzgerald, X. Xiao, S.S. Oh, S.A. Maier, V. Giannini, D.E. Reiter
    New J. Phys. 20, 095005 (2018)
  • Influence of the quantum dot geometry on p-shell transitions in differently charged quantum dots
    M. Holtkemper, D.E. Reiter, and T. Kuhn
    Phys. Rev. B 97, 075308 (2018)
  • Charge and spin control of ultrafast electron and hole dynamics in single CdSe/ZnSe quantum dots
    C. Hinz, P. Gumbsheimer, C. Traum, M. Holtkemper, B. Bauer, J. Haase, S. Mahapatra, A. Frey, K. Brunner, D.E. Reiter, T. Kuhn, D.V. Seletskij, and A. Leitenstorfer
    Phys. Rev. B 97, 045302 (2018)

2017

  • Phonon impact on optical control schemes of quantum dots: Role of quantum dot geometry and symmetry
    S. Lüker, T. Kuhn, and D.E. Reiter
    Phys. Rev. B 96, 245306 (2017)
  • Control of quantum dot laser emission by coherent phonon wave packets
    D. Wigger, T. Czerniuk, D.E. Reiter, M. Bayer, and T. Kuhn
    IOP Conf. Series: Journal of Physics: Conf. Series 906 (2017) 012025
  • Magnetic-optical transitions induced by twisted light in quantum dots
    G.F. Quinteiro, D.E. Reiter, T. Kuhn
    IOP Conf. Series: Journal of Physics: Conf. Series 906 (2017) 012014
  • Exploring coherence of individual excitons in InAs quantum dots embedded in natural photonic defects: Influence of the excitation intensity
    D. Wigger, Q. Mermillod, T. Jakubczyk, F. Fras, S. Le-Denmat, D.E. Reiter, S. Höfling, M. Kamp, G. Nogues, C. Schneider, T. Kuhn, and J. Kasprzak
    Phys. Rev. B 96 (2017) 165311
  • Spatio-Temporal Dynamics of Carrier Capture Processes: Simulation of Optical Signals
    F. Lengers, R. Rosati, T. Kuhn, and D.E. Reiter
    Acta Physica Polonica A, Vol. 132, 372 (2017)
  • Systematic study of the influence of coherent phonon wave packets on the lasing properties of a quantum dot ensemble
    D. Wigger, T. Czerniuk, D.E. Reiter, M. Bayer, and T. Kuhn
    New J. Phys. 19 (2017) 073001
  • Demonstrating the decoupling regime of the electron-phonon interaction in a quantum dot using chirped optical excitation
    T. Kaldewey, S. Lüker, A.V. Kuhlmann, S.R. Valentin, J.-M. Chauveau, A. Ludwig, A.D. Wieck, D.E. Reiter, T. Kuhn, and R.J. Warburton
    Phys. Rev. B 95, 241306(R) (2017)
  • Phonon-assisted dark exciton preparation in a quantum dot
    S. Lüker, T. Kuhn, and D.E. Reiter
    Phys. Rev. B 95, 195305 (2017)
  • Coherent and robust high-fidelity generation of a biexciton in a quantum dot by rapid adiabatic passage
    T. Kaldewey, S. Lüker, A.V. Kuhlmann, S.R. Valentin, A. Ludwig, A.D. Wieck, D.E. Reiter, T. Kuhn, and R.J. Warburton
    Phys. Rev. B 95, 161302(R) (2017)
  • Lindblad approach to spatiotemporal quantum dynamics of phonon-induced carrier capture processes
    R. Rosati, D.E. Reiter, and T. Kuhn
    Phys. Rev. B 95, 165302 (2017)
  • Picosecond Control of Quantum Dot Laser Emission by Coherent Phonons
    T. Czerniuk, D. Wigger, A. V. Akimov, C. Schneider, M. Kamp, S. Höfling, D. R. Yakovlev, T. Kuhn, D. E. Reiter, and M. Bayer
    Phys. Rev. Lett. 118, 133901 (2017)
  • Reading the Orbital Angular Momentum of Light Using Plasmonic Nanoantennas
    R.M. Kerber, J.M. Fitzgerald, D.E. Reiter, S.S. Oh, and O. Hess
    ACS Photonics, 4, 891 (2017)
  • Time-resolved pump-probe signals of a continuously driven quantum dot affected by phonons
    D.E. Reiter
    Phys. Rev. B 95, 125308 (2017)
  • Formulation of the twisted-light-matter interaction at the phase singularity: Beams with strong magnetic fields
    G.F. Quinteiro, D.E. Reiter, and T. Kuhn
    Phys. Rev. A 95, 012106 (2017)

2016

  • Impact of Phonons on Dephasing of Individual Excitons in Deterministic Quantum Dot Microlenses
    T. Jakubczyk, V. Delmonte, S. Fischbach, D. Wigger, D.E. Reiter, Q. Mermillod, P. Schnauber, A. Kaganskiy, J.-H. Schulze, A. Strittmatter, S. Rodt, W. Langbein, T. Kuhn, S. Reitzenstein, and J. Kasprzak
    ACS Photonics, 3, 2461 (2016)
  • Dynamical calculation of third-harmonic generation in a semiconductor quantum well
    S. Guazzotti, A. Pusch, D.E. Reiter, and O. Hess
    Phys. Rev. B 94, 115303 (2016)
  • Quantum dynamics of optical phonons generated by optical excitations of a quantum dot
    D. Wigger, H. Gehring, V.M. Axt, D.E. Reiter, and T. Kuhn
    J. Comput. Electron 15, 1158-1169 (2016)
  • Fast and selective phonon-assisted state preparation of a quantum dot by adiabatic undressing
    A.M. Barth, S. Lüker, A. Vagov, D.E. Reiter, T. Kuhn, and V.M. Axt
    Phys. Rev. B 94, 045306 (2016)
  • Nanoscale Positioning of Single-Photon Emitters in Atomically Thin WSe2
    J. Kern, I. Niehues, P. Tonndorf, R. Schmidt, D. Wigger, R. Schneider, T. Stiehm, S. Michaelis de Vasconcellos, D.E. Reiter, T. Kuhn, and R. Bratschitsch
    Adv. Mater. 28, 7101-7105 (2016)
  • Dynamics of excitons in individual InAs quantum dots revealed in four-wave mixing spectroscopy
    Q. Mermillod, D. Wigger, V. Delmonte, D.E. Reiter, C. Schneider, M. Kamp, S. Höfling, W. Langbein, T. Kuhn, G. Nogues, and J. Kasprzak
    Optica, Vol. 3, No. 4, pp. 377-384 (2016)

2015

2014

2013

  • Adiabatic rapid passage in quantum dots: phonon-assisted decoherence and biexciton generation
    K. Gawarecki, S. Lüker, D.E. Reiter, T. Kuhn, M. Glässl, V.M. Axt, A. Grodecka-Grad, and P. Machnikowski
    Phys. Status Solidi C 10, No. 9, 1210-1213 (2013)
  • Switching between ground states of an InAs quantum dot doped with a single Mn atom
    D. Thuberg, D.E. Reiter, V.M. Axt, and T. Kuhn
    Phys. Rev. B 88, 085312 (2013)
  • Optical signals of spin switching using the optical Stark effect in a Mn-doped quantum dot
    D.E. Reiter, V.M. Axt, and T. Kuhn
    Phys. Rev. B 87, 115430 (2013)
  • Biexciton state preparation in a quantum dot via adiabatic rapid passage: Comparison between two control protocols and impact of phonon-induced dephasing
    M. Glässl, A.M. Barth, K. Gawarecki, P. Machnikowski, M.D. Croitoru, S. Lüker, D.E. Reiter, T. Kuhn and V.M. Axt
    Phys. Rev. B 87, 085303 (2013)
  • Fluctuation properties of acoustic phonons generated by ultrafast optical excitation of a quantum dot
    D. Wigger, D.E. Reiter, V.M. Axt, and T. Kuhn
    Phys. Rev. B 87, 085301 (2013)

2012

  • Phonon Effects on Population Inversion in Quantum Dots: Resonant, Detuned and Frequency-Swept Excitations
    D.E. Reiter, S. Lüker, K. Gawarecki, A. Grodecka-Grad, P. Machnikowski, V.M. Axt, and T. Kuhn
    Acta Physica Polonica A, Vol. 122, 1065-1068 (2012)
  • Dephasing in the adiabatic rapid passage in quantum dots: Role of phonon-assisted biexciton generation
    K. Gawarecki, S. Lüker, D.E. Reiter, T. Kuhn, M. Glässl, V.M. Axt, A. Grodecka-Grad, and P. Machnikowski
    Phys. Rev. B 86, 235301 (2012)
  • Spectral characteristics and dynamics of a light hole type quantum dot doped with a single Mn atom
    D.E. Reiter, V.M. Axt, and T. Kuhn
    Phys. Status Solidi C 9, No. 5, 1284-1287 (2012)
  • Influence of acoustic phonons on the optical control of quantum dots driven by adiabatic rapid passage
    S. Lüker, K. Gawarecki, D.E. Reiter, A. Grodecka-Grad, V.M. Axt, P. Machnikowski, and T. Kuhn
    Phys. Rev. B 85, 121302(R) (2012)
    also published in Virtual Journal of Nanoscale Science & Technology, Vol. 25, Issue 13 (March 2012)
    and in Virtual Journal of Ultrafast Science, Vol. 11, Issue 4 (April 2012)
  • Spin switching in a Mn-doped quantum dot using the optical Stark effect
    D.E. Reiter, T. Kuhn, and V.M. Axt
    Phys. Rev. B 85, 045308 (2012)
    also published in Virtual Journal of Nanoscale Science & Technology, Vol. 25, Issue 4 (January 2012)
    and in Virtual Journal of Ultrafast Science, Vol. 11, Issue 2 (February 2012)

2011

  • Generation and dynamics of phononic cat states after optical excitation of a quantum dot
    D.E. Reiter, D. Wigger, V.M. Axt, and T. Kuhn
    Phys. Rev. B. 84, 195327 (2011)
    also published in Virtual Journal of Nanoscale Science & Technology, Vol. 24, Issue 24 (December 2011)
    and in Virtual Journal of Ultrafast Science, Vol. 10, Issue 12 (December 2011)
  • Long-time dynamics and stationary nonequilibrium of an optically driven strongly confined quantum dot coupled to phonons
    M. Glässl, A. Vagov, S. Lüker, D.E. Reiter, M.D. Croitoru, P. Machnikowski, V.M. Axt, and T. Kuhn
    Phys. Rev. B 84, 195311 (2011)
  • Quantum kinetics of squeezed lattice displacement generated by phonon down conversion
    J.M. Daniels, T. Papenkort, D.E. Reiter, T. Kuhn, and V.M. Axt
    Phys. Rev. B 84, 165310 (2011)
    also published in Virtual Journal of Nanoscale Science & Technology, Vol. 24, Issue 16 (October 2011)
  • Coherent control of a single Mn spin in a quantum dot via optical manipulation of the light hole exciton
    D.E. Reiter, T. Kuhn, and V.M. Axt
    Phys. Rev. B 83, 155322 (2011)
    also published in Virtual Journal of Ultrafast Science, Vol. 10, Issue 5 (May 2011)
  • Fluctuation properties of phonons generated by ultrafast optical excitation of a quantum dot
    D.E. Reiter, D. Wigger, J.M. Daniels, T. Papenkort, A. Vagov, V.M. Axt, and T. Kuhn
    Phys. Status Solidi B 248, No. 4, 825-828 (2011)

2010

2009

2008

2007

  • Spatiotemporal dynamics in optically excited quantum wire-dot systems: Capture, escape, and wave-front dynamics
    D.E. Reiter, M. Glanemann, V.M. Axt, and T. Kuhn
    Phys. Rev. B 75, 205327 (2007)
    also published in Virtual Journal of Nanoscale Science & Technology, Vol. 15, Issue 15 (June 2007)

2006

  • Control of capture-induced coherences in wave packet transport through nanostructures
    D.E. Reiter, M. Glanemann, V.M. Axt, and T. Kuhn
    phys. stat. sol. (b) 243, No. 10, 2297-2301 (2006)
  • Controlling the capture dynamics of traveling wave packets into a quantum dot
    D.E. Reiter, M. Glanemann, V.M. Axt, and T. Kuhn
    Phys. Rev. B 73, 125334 (2006)
    also published in Virtual Journal of Nanoscale Science & Technology, Vol. 13, Issue 13 (Apr. 2006)
    and in Virtual Journal of Ultrafast Science, Vol. 5, Issue 4 (May 2006)
  • Spatiotemporal dynamics of charge carriers in quantum dot-wire systems following delocalized optical excitations
    D.E. Reiter, V.M. Axt, and T. Kuhn
    in: Proceedings of the 28th International Conference on the Physics of Semiconductors, Wien, 24-28 July 2006
    Ed. by W. Jantsch and F. Schäffler, AIP Conference Proceedings Vol. 893, pp. 1005-1006, abstract
  • Capture-Induced Quantum Dot Coherences Controlled by Traveling Wave Packets of Different Spatial Extension
    D.E. Reiter, V.M. Axt, and T. Kuhn
    in: Frontiers in Optics, OSA Technical Digest (CD), Optical Society of America (2006), paper FThO4 (2006)

Calendar

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Location & approach

The campus of TU Dort­mund University is located close to interstate junction Dort­mund West, where the Sauerlandlinie A 45 (Frankfurt-Dort­mund) crosses the Ruhrschnellweg B 1 / A 40. The best interstate exit to take from A 45 is “Dort­mund-Eichlinghofen” (closer to South Campus), and from B 1 / A 40 “Dort­mund-Dorstfeld” (closer to North Campus). Signs for the uni­ver­si­ty are located at both exits. Also, there is a new exit before you pass over the B 1-bridge leading into Dort­mund.

To get from North Campus to South Campus by car, there is the connection via Vogelpothsweg/Baroper Straße. We recommend you leave your car on one of the parking lots at North Campus and use the H-Bahn (suspended monorail system), which conveniently connects the two campuses.

TU Dort­mund University has its own train station (“Dort­mund Uni­ver­si­tät”). From there, suburban trains (S-Bahn) leave for Dort­mund main station (“Dort­mund Hauptbahnhof”) and Düsseldorf main station via the “Düsseldorf Airport Train Station” (take S-Bahn number 1, which leaves every 20 or 30 minutes). The uni­ver­si­ty is easily reached from Bochum, Essen, Mülheim an der Ruhr and Duisburg.

You can also take the bus or subway train from Dort­mund city to the uni­ver­si­ty: From Dort­mund main station, you can take any train bound for the Station “Stadtgarten”, usually lines U41, U45, U 47 and U49. At “Stadtgarten” you switch trains and get on line U42 towards “Hombruch”. Look out for the Station “An der Palmweide”. From the bus stop just across the road, busses bound for TU Dort­mund University leave every ten minutes (445, 447 and 462). Another option is to take the subway routes U41, U45, U47 and U49 from Dort­mund main station to the stop “Dort­mund Kampstraße”. From there, take U43 or U44 to the stop “Dort­mund Wittener Straße”. Switch to bus line 447 and get off at “Dort­mund Uni­ver­si­tät S”.

The AirportExpress is a fast and convenient means of transport from Dortmund Airport (DTM) to Dortmund Central Station, taking you there in little more than 20 minutes. From Dortmund Central Station, you can continue to the university campus by interurban railway (S-Bahn). A larger range of international flight connections is offered at Düsseldorf Airport (DUS), which is about 60 kilometres away and can be directly reached by S-Bahn from the university station.

The H-Bahn is one of the hallmarks of TU Dort­mund University. There are two stations on North Campus. One (“Dort­mund Uni­ver­si­tät S”) is directly located at the suburban train stop, which connects the uni­ver­si­ty directly with the city of Dort­mund and the rest of the Ruhr Area. Also from this station, there are connections to the “Technologiepark” and (via South Campus) Eichlinghofen. The other station is located at the dining hall at North Campus and offers a direct connection to South Campus every five minutes.

The facilities of TU Dortmund University are spread over two campuses, the larger Campus North and the smaller Campus South. Additionally, some areas of the university are located in the adjacent “Technologiepark”.

Site Map of TU Dortmund University (Second Page in English).