Theoretical simulation of the long-wave HgCdTe detector for ultra fast response-operating under zero bias condition and room temperature

Piotr Martyniuk; Paweł Madejczyk; Jarosław Rutkowski

doi:10.1117/12.2281405

1 September 2017 Theoretical simulation of the long-wave HgCdTe detector for ultra fast response-operating under zero bias condition and room temperature

Piotr Martyniuk, Paweł Madejczyk, Jarosław Rutkowski

Author Affiliations +

Proceedings Volume 10455, 12th Conference on Integrated Optics: Sensors, Sensing Structures, and Methods; 104550D (2017) https://doi.org/10.1117/12.2281405
Event: Twelfth Integrated Optics – Sensors, Sensing Structures and Methods Conference, 2017, Szczyrk-Gliwice, Poland

Abstract

The paper reports on the long-wave (λ_c = 8.05−11 μm) HgCdTe (Cd composition, x_Cd = 0.17−0.2) infrared detector for ultra short response time operating for unbiased condition and room temperature (300 K). The optimal structure in terms of the short response time versus device architecture was shown. The response time of the long-wave (x_Cd = 0.17−0.2) HgCdTe detector for 300 K was calculated at the level of τ_s ~ 400−440 ns for zero bias condition and lack of the extra series resistance. It was presented that extra series resistance related to the processing (in the range ~ 0−20 Ω) extends response time within the range τ_s ~ 650−800 ps for active layer x_Cd = 0.2.

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Piotr Martyniuk, Paweł Madejczyk, and Jarosław Rutkowski "Theoretical simulation of the long-wave HgCdTe detector for ultra fast response-operating under zero bias condition and room temperature", Proc. SPIE 10455, 12th Conference on Integrated Optics: Sensors, Sensing Structures, and Methods, 104550D (1 September 2017); https://doi.org/10.1117/12.2281405

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KEYWORDS

Mercury cadmium telluride

Sensors

Ultrafast phenomena

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