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TOCON_VUV

  • broadband SiC based VUV photodetector with integrated amplifier
  • TO5 hermetically sealed metal housing
  • 0 … 5 V signal output
  • usable for e.g. 185 nm (Hg low pressure lamp) or 172 nm (excimer) detection
  • This is a customized product with a dynamic range according to customer’s requirements. The dynamic range, defined with the order, is three orders of magnitude. The smallest measurable irradiation level is 180 pW/cm2. The largest level is 18 W/cm2. Delivery time is six weeks.

Single Price: 199,00

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Publications

2023 – Approaches of LED in-line measurements and its traceable calibration
Gabriel Hopfenmüller, Dr. Niklas Papathanasiou, sglux GmbH, Berlin, Germany

InterAqua Japan 01. – 03.02.2023
Approaches of LED in-line measurements and its traceable calibration

Abstract
UV measurement at UV LED arrays.

2023 – 4H-SiC PIN Photodiode for VUV Detection Using an Enhanced Emitter Doping Design
M. Schraml¹, N. Papathanasiou², A. May¹, M. Rommel¹, T. Erlbacher³
¹Fraunhofer IISB, Erlangen, Germany
²sglux GmbH, Berlin, Germany
³Friedrich-Alexander-Universität Erlangen-Nürnberg, Erlangen, Germany

2023 IEEE Photonics Conference (IPC) 12. – 16.11.2023

4H-SiC PIN Photodiode for VUV Detection Using an Enhanced Emitter Doping Desig

Abstract
The fabrication of a novel Vacuum UV (VUV) sensitive 4H-SiC pin photodiode is presented. Aluminum ion implantation was used to fabricate a patterned emitter structure with p – and p + regions resulting in the highest reported VUV sensitivity for a SiC pin photodiode.

2023 – Towards Sic-Based VUV Pin-Photodiodes – Investigations on 4H-SiC Photodiodes with Shallow Implanted Al Emitters
Michael Schraml¹, Alexander May¹, Dr. Tobias Erlbacher¹, Dr. Niklas Papathanasiou², Dr. Tilman Weiss²,
¹Fraunhofer IISB, Erlangen, Germany
²sglux GmbH, Berlin, Germany

Towards SiC-Based VUV Pin-Photodiodes – Investigations on 4H-SiC Photodiodes with Shallow Implanted Al Emitters

Zusammenfassung
4H silicon carbide (SiC) based pin photodiodes with a sensitivity in the vacuum ultraviolet spectrum (VUV) demand newly developed emitter doping profiles. This work features the first ever reported 4H-SiC pin photodiodes with an implanted p-emitter and a noticeable sensitivity at a wavelength of 200 nm. As a first step, Aluminum doping profiles produced by low energy ion implantation in 4H-SiC were characterized by secondary-ion mass spectrometry (SIMS). Photodiodes using these shallow emitters are compared to one with a deep p-emitter doping profile employing IV characteristics and the spectral response. SIMS results demonstrate the possibility of shallow Alimplantation profiles using low implantation energies with all emitter profiles featuring characteristic I-V results. For some shallow doping profiles, a meassurable signal at the upper limit of the VUV spectrum could be demonstrated, paving the way towards 4H-SiC pin photodiodes with sensitivities for wavelengths below 200 nm.

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