Your search keyword '"de Vasconcellos, Steffen Michaelis"' showing total 3 results

1. Resonant and phonon-assisted ultrafast coherent control of a single hBN color center

Author

Preuß, Johann A., Groll, Daniel, Schmidt, Robert, Hahn, Thilo, Machnikowski, Paweł, Bratschitsch, Rudolf, Kuhn, Tilmann, de Vasconcellos, Steffen Michaelis, and Wigger, Daniel

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Optics, Quantum Physics

Abstract

Single-photon emitters in solid-state systems are important building blocks for scalable quantum technologies. Recently, quantum light emitters have been discovered in the wide-gap van der Waals insulator hBN. These color centers have attracted considerable attention due to their quantum performance at elevated temperatures and wide range of transition energies. Here, we demonstrate coherent state manipulation of a single hBN color center with ultrafast laser pulses and investigate in our joint experiment-theory study the coupling between the electronic system and phonons. We demonstrate that coherent control can not only be performed resonantly on the optical transition giving access to the decoherence but also phonon-assisted, which reveals the internal phonon quantum dynamics. In the case of optical phonons we measure their decoherence, stemming in part from their anharmonic decay. Dephasing induced by the creation of acoustic phonons manifests as a rapid decrease of the coherent control signal when traveling phonon wave packets are emitted. Furthermore, we demonstrate that the quantum superposition between a phonon-assisted process and the resonant excitation causes ultrafast oscillations of the coherent control signal. Our results pave the way for ultrafast phonon quantum state control on the nanoscale and open up a new promising perspective for hybrid quantum technologies.

Published

2022

2. Single photon emission from individual nanophotonic-integrated colloidal quantum dots

Author

Eich, Alexander, Spiekermann, Tobias C., Gehring, Helge, Sommer, Lisa, Bankwitz, Julian R., Schrinner, Philip P. J., Preuß, Johann A., de Vasconcellos, Steffen Michaelis, Bratschitsch, Rudolf, Pernice, Wolfram H. P., and Schuck, Carsten

Subjects

Quantum Physics, Physics - Optics

Abstract

Solution processible colloidal quantum dots hold great promise for realizing single-photon sources embedded into scalable quantum technology platforms. However, the high-yield integration of large numbers of individually addressable colloidal quantum dots in a photonic circuit has remained an outstanding challenge. Here, we report on integrating individual colloidal core-shell quantum dots (CQDs) into a nanophotonic network that allows for excitation and efficient collection of single-photons via separate waveguide channels. An iterative electron beam lithography process provides a viable method to position single emitters at predefined positions in a photonic integrated circuit with yield that approaches unity. Our work moves beyond the bulk optic paradigm of confocal microscopy and paves the way for supplying chip-scale quantum networks with single photons from large numbers of simultaneously controllable quantum emitters., Comment: 17 pages, 10 figures

Published

2021

3. Phonon-assisted emission and absorption of individual color centers in hexagonal boron nitride

Author

Wigger, Daniel, Schmidt, Robert, Del Pozo-Zamudio, Osvaldo, Preuß, Johann A., Tonndorf, Philipp, Schneider, Robert, Steeger, Paul, Kern, Johannes, Khodaei, Yashar, Sperling, Jaroslaw, de Vasconcellos, Steffen Michaelis, Bratschitsch, Rudolf, and Kuhn, Tilmann

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Optics

Abstract

Defect centers in hexagonal boron nitride represent room-temperature single-photon sources in a layered van der Waals material. These light emitters appear with a wide range of transition energies ranging over the entire visible spectrum, which renders the identification of the underlying atomic structure challenging. In addition to their eminent properties as quantum light emitters, the coupling to phonons is remarkable. Their photoluminescence exhibits significant side band emission well separated from the zero phonon line (ZPL) and an asymmetric broadening of the ZPL itself. In this combined theoretical and experimental study we show that the phonon side bands can be well described in terms of the coupling to bulk longitudinal optical (LO) phonons. To describe the ZPL asymmetry we show that in addition to the coupling to longitudinal acoustic (LA) phonons also the coupling to local mode oscillations of the defect center with respect to the entire host crystal has to be considered. By studying the influence of the emitter's wave function dimensions on the phonon side bands we find reasonable values for size of the wave function and the deformation potentials. We perform photoluminescence excitation measurements to demonstrate that the excitation of the emitters is most efficient by LO-phonon assisted absorption., Comment: Accepted, Including Supplementary Material, Licence: https://creativecommons.org/licenses/by/3.0/ (preprint published online: https://iopscience.iop.org/article/10.1088/2053-1583/ab1188)

Published

2019