Measurements of Thermal Emission from Silicon Wafers highlighting discrepancies with Planck's Law at sub-THz frequencies

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Measurements of Thermal Emission from Silicon Wafers highlighting discrepancies with Planck's Law at sub-THz frequencies

Conference Paper (2025)

Author(s)

Laurens F.E. Beijnen (TU Delft - Electrical Engineering, Mathematics and Computer Science)

Juan Bueno (TU Delft - Electrical Engineering, Mathematics and Computer Science)

Yanwen Chen (TU Delft - Electrical Engineering, Mathematics and Computer Science)

Paolo Sberna (TU Delft - Electrical Engineering, Mathematics and Computer Science)

Marco Spirito (TU Delft - Electrical Engineering, Mathematics and Computer Science)

Andrea Neto (TU Delft - Electrical Engineering, Mathematics and Computer Science)

Research Group

Tera-Hertz Sensing

DOI related publication

https://doi.org/10.1109/IRMMW-THz61557.2025.11319858 Final published version

To reference this document use

https://resolver.tudelft.nl/uuid:91a69f67-b60c-4b5c-967a-675781b809ba

More Info

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Publication Year

2025

Language

English

Research Group

Tera-Hertz Sensing

Publisher

IEEE

ISBN (print)

979-8-3503-7884-9

ISBN (electronic)

979-8-3503-7883-2

Event

2025 50th International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THz) (2025-08-17 - 2025-08-22), Helsinki, Finland

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Abstract

The thermal energy radiated by silicon wafers with different conductivities is characterized experimentally in the mm and sub-mm wave ranges. These samples are heated up, and the energy that they radiate thermally is captured by different horn antennas covering the frequency band between 75 and 500 GHz. The energy radiated (in the order of pW) and collected by the horn antennas is subsequently detected by zero bias Schottky diodes. The measured thermal radiated power agrees with the prediction from Planck's law for the highly doped wafers, corresponding to high conductivities. However, for low conductivities, the measurements show a descending pattern as a function of the frequency, which is not in line with expectations from Planck's law. Parallelly, we have developed a theoretical model providing a classical explanation of these results [1].

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