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Sergej Vollmer

Techniker
Institut für Halbleiteroptik und Funktionelle Grenzflächen
Semiconductor Epitaxy Group

Contact

+49 711 685 64689
Email

Pfaffenwaldring 57
70569 Stuttgart
Deutschland
Room: NWZ2 0.815

Publications

2024
1. Vijayan, P., Joos, R., Werner, M., Hirlinger-Alexander, J., Seibold, M., Vollmer, S., Sittig, R., Bauer, S., Braun, F., Portalupi, S., Jetter, M., & Michler, P. (2024). Growth of telecom C-band In(Ga)As quantum dots for silicon quantum photonics. Materials for Quantum Technology, 4. https://doi.org/10.1088/2633-4356/ad2522
  - BibTeX
  BibTeX
  @article{article, author = {Vijayan, Ponraj and Joos, Raphael and Werner, Marco and Hirlinger-Alexander, Jakob and Seibold, Matthias and Vollmer, Sergej and Sittig, Robert and Bauer, Stephanie and Braun, Fiona and Portalupi, Simone and Jetter, Michael and Michler, Peter}, doi = {10.1088/2633-4356/ad2522}, journal = {Materials for Quantum Technology}, month = {02}, title = {Growth of telecom C-band In(Ga)As quantum dots for silicon quantum photonics}, volume = 4, year = 2024 }
2023
1. Engel, L., Kolatschek, S., Herzog, T., Vollmer, S., Jetter, M., Portalupi, S. L., & Michler, P. (2023). Purcell enhanced single-photon emission from a quantum dot coupled to a truncated Gaussian microcavity. Applied Physics Letters, 122(4), Article 4. https://doi.org/10.1063/5.0128631
  - BibTeX
  - Link
  BibTeX
  @article{doi:10.1063/5.0128631, abstract = { Purcell enhancement of quantum dot (QD) single-photon emission and increased device brightness have been demonstrated with various types of microcavities. Here, we present the first realization of a truncated Gaussian-shaped microcavity coupled to a QD. The implementation is based on wet-chemical etching and epitaxial semiconductor overgrowth. The cavity modes and their spatial profiles are experimentally studied and agree well with simulations. The fundamental mode wavelength with Q-factors around 6000 and a small polarization splitting of 29 μeV can be reproducibly controlled via fabrication design, enabling the adaption of the cavity to a specific QD. Finally, transitions of a QD inside a cavity are tuned on and off resonance via temperature tuning. A reduced decay time by a factor above 3 on resonance clearly indicates Purcell enhancement while second-order correlation measurements of g(2)(0) = 0.057 prove that the QDs single-photon characteristic is preserved. }, author = {Engel, Lena and Kolatschek, Sascha and Herzog, Thomas and Vollmer, Sergej and Jetter, Michael and Portalupi, Simone L. and Michler, Peter}, doi = {10.1063/5.0128631}, eprint = {https://doi.org/10.1063/5.0128631}, journal = {Applied Physics Letters}, number = 4, pages = 043503, title = {Purcell enhanced single-photon emission from a quantum dot coupled to a truncated Gaussian microcavity}, url = {/brokenurl# https://doi.org/10.1063/5.0128631 }, volume = 122, year = 2023 }
  Link
  /brokenurl# https://doi.org/10.1063/5.0128631
2017
1. Mirkhanov, S., Quarterman, A. H., Kahle, H., Bek, R., Pecoroni, R., Smyth, C. J. C., Vollmer, S., Swift, S., Michler, P., Jetter, M., & Wilcox, K. G. (2017). DBR-free semiconductor disc laser on SiC heatspreader emitting 10.1 W at 1007 nm. Electronics Letters, 53(23), Article 23. https://doi.org/10.1049/el.2017.2689
  - BibTeX
  - Link
  BibTeX
  @article{Mirkhanov_2017, author = {Mirkhanov, S. and Quarterman, A.H. and Kahle, H. and Bek, R. and Pecoroni, R. and Smyth, C.J.C. and Vollmer, S. and Swift, S. and Michler, P. and Jetter, M. and Wilcox, K.G.}, doi = {10.1049/el.2017.2689}, journal = { Electronics Letters}, month = {11}, number = 23, pages = {1537--1539}, publisher = {Institution of Engineering and Technology ({IET})}, title = {DBR-free semiconductor disc laser on SiC heatspreader emitting 10.1 W at 1007 nm }, url = {https://doi.org/10.1049%2Fel.2017.2689}, volume = 53, year = 2017 }
  Link
  https://doi.org/10.1049%2Fel.2017.2689
2012
1. andRalph Schregle andMichael Jetter andClemens Wächter andThomas Wunderer, M. L., & andJosef Zweck, F. S. (2012). Differential phase contrast 2.0â€”Opening new fields for an established technique. http://www.sciencedirect.com/science/article/pii/S0304399112000629
  - BibTeX
  - Link
  BibTeX
  @article{noauthororeditor, author = {andRalph Schregle andMichael Jetter andClemens Wächter andThomas Wunderer, Matthias Lohr and andJosef Zweck, Ferdinand Scholz}, title = {Differential phase contrast 2.0â€”Opening new fields for an established technique}, url = {http://www.sciencedirect.com/science/article/pii/S0304399112000629}, year = 2012 }
  Link
  http://www.sciencedirect.com/science/article/pii/S0304399112000629
2009
1. Roßbach, R., Eichfelder, M., Wiesner, M., Weidenfeld, S., Jetter, M., & and P. Michler. (2009). Poster:Red VCSEL for Polymer Optical Fiber.
  - BibTeX
  BibTeX
  @conference{noauthororeditor, author = {Roßbach, R. and Eichfelder, M. and Wiesner, M. and Weidenfeld, S. and Jetter, M. and and P. Michler}, title = {Poster:Red VCSEL for Polymer Optical Fiber}, year = 2009 }
1997
1. Michler, P. (1997). Emission dynamics of microcavity vertical surface emitting lasers. In Opto-Electronic Properties of Semiconductors and Superlattices (pp. 389–431). Gordon and Breach / Harwood Academic.
  - BibTeX
  BibTeX
  @book{noauthororeditor, author = {Michler, P.}, booktitle = {Opto-Electronic Properties of Semiconductors and Superlattices}, pages = {389- 431}, publisher = {Gordon and Breach / Harwood Academic}, title = {Emission dynamics of microcavity vertical surface emitting lasers}, year = 1997 }

Sergej Vollmer

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Publications

2024

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2023

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2017

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2012

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2009

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1997

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Sergej Vollmer

Contact

Publications

2024

BibTeX

2023

BibTeX

Link

2017

BibTeX

Link

2012

BibTeX

Link

2009

BibTeX

1997

BibTeX

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