J. Edlinger
Vorarlberg University of Applied Sciences
7 Papers
17 Citations
J. Edlinger is an academic researcher from Vorarlberg University of Applied Sciences. The author has contributed to research in topics: Spectrometer & Ion trap. The author has an hindex of 4, co-authored 7 publications.
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Papers
Cryogenic silicon surface ion trap
Michael Niedermayr,Kirill Lakhmanskiy,Muir Kumph,Stefan Partel,J. Edlinger,Johannes Edlinger,Michael Brownnutt,Rainer Blatt +7 more
TL;DR: In this paper, the authors report on cryogenically operated silicon ion traps which can be rapidly and easily fabricated using standard semiconductor technologies, and demonstrate long ion lifetimes with the traps exhibiting heating rates as low as 0.33 phonons/s at an ion-electrode distance of 230 $\mu$m.
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Cryogenic surface ion trap based on intrinsic silicon
Michael Niedermayr,Kirill Lakhmanskiy,Muir Kumph,Stefan Partel,J. Edlinger,Michael Brownnutt,Rainer Blatt,Rainer Blatt +7 more
TL;DR: In this article, a cryogenically operated intrinsic-silicon ion trap was used for building quantum information processors and quantum simulators, which can be easily fabricated using standard semiconductor technologies.
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Compact and High-Resolution 256-Channel Silicon Nitride Based AWG-Spectrometer for OCT on a Chip
Dana Seyringer,Martin Sagmeister,Alejandro Maese-Novo,Moritz Eggeling,Elisabet Rank,J. Edlinger,Paul Muellner,Rainer Hainberger,Wolfgang Drexler,Jochen Kraft,Günther Koppitsch,Gerald Meinhardt,M. Vlaskovic,Horst Zimmermann +13 more
- 09 Jul 2019
TL;DR: The design, simulation, and technological verification of a compact 256-channel, 42-GHz silicon nitride based AWG-spectrometer dedicated to the realization of an on-chip spectral domain optical coherence tomography (SD-OCT) system are presented.
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Design and simulation of Si 3 N 4 based arrayed waveguide gratings applying AWG-Parameters tool
Dana Seyringer,C. Burtscher,Stefan Partel,J. Edlinger,Alejandro Maese-Novo,Paul Muellner,Rainer Hainberger,Jochen Kraft,Günther Koppitsch,Gerald Meinhardt +9 more
- 10 Jul 2016
TL;DR: In this article, the AWG-Parameters tool was used to design 8-channel, 100 GHz Si 3 N 4 based AWGs for TM-polarized light with a central wavelength of 850 nm.
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Design and simulation of 20-channel 50-GHz Si3N4-based arrayed waveguide grating applying AWG-parameters tool
Dana Seyringer,C. Burtscher,Stefan Partel,J. Edlinger,Alejandro Maese-Novo,Paul Muellner,Rainer Hainberger,Jochen Kraft,Günther Koppitsch,Gerald Meinhardt +9 more
TL;DR: In this article, a 20-channel, 50-GHz Si 3 N 4 based AWG was designed for TM-polarized light with a central wavelength of 850 nm.
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