Nanometer Scale Complementary Silicon MOSFETs as Detectors of Terahertz and Sub-terahertz Radiation

Author

Stillman, W. ; Guarin, F. ; Kachorovskii, V.Yu. ; Pala, N. ; Rumyantsev, S. ; Shur, M.S. ; Veksler, D.

Author_Institution

Rensselaer Polytech. Inst., Troy

fYear

2007

fDate

28-31 Oct. 2007

Firstpage

934

Lastpage

937

Abstract

We demonstrate, for the first time, THz detection by Si CMOS, i.e. by both p-channel and n-channel Si MOS devices. Previous work demonstrated that Si n-MOS devices detect THz and sub-THz radiation via the excitation of plasma waves in the device channel, with responsivity and Noise Equivalent Power on the order of commercial pyroelectric detectors but capable of operating at much greater speed as shown by a theory of temporal response predicting the maximum operating frequency. The CMOS responsivity is a strong increasing function of the drain current. Our experimental data and modeling results allow us to understand the effects of device geometry and bias on the Si CMOS THz detector performance.

Keywords

CMOS integrated circuits; MIS devices; MOSFET; silicon; submillimetre waves; CMOS integrated circuit; CMOS responsivity; Si; complementary silicon MOSFET; n-channel MOS devices; nanometer scale MOSFET; noise equivalent power; p-channel MOS devices; pyroelectric detectors; sub-terahertz radiation; Frequency; Geometry; MOS devices; MOSFETs; Plasma waves; Pyroelectricity; Radiation detectors; Semiconductor device modeling; Silicon radiation detectors; Solid modeling;

fLanguage

English

Publisher

ieee

Conference_Titel

Sensors, 2007 IEEE

Conference_Location

Atlanta, GA

ISSN

1930-0395

Print_ISBN

978-1-4244-1261-7

Electronic_ISBN

1930-0395

Type

conf

DOI

10.1109/ICSENS.2007.4388556

Filename

4388556