Abstract
AbstractA field-effect photodetector structure composed of an Al2O3-encapsulated bilayer graphene conductive channel attached to an Al2O3 dielectric layer deposited on a HgCdTe absorbing layer on CdTe/Si <211> was studied. Ti/Au ohmic contacts to the graphene layer were used as drain and source electrodes and back-gate voltage was applied to the Si substrate. It was demonstrated that 80% and 10% modulation of the graphene channel conductivity can be achieved under blue (50 W/cm2) and infrared (IR) (0.02 W/cm2) illumination, respectively, at a gate voltage of 7 V. Detector responsivity was measured as 406 A/W and 1.83 A/W under IR lamp and 405-nm laser irradiation, respectively, with corresponding gain values of 340 and 5.6. The detectivity of the 4 × 4 photodetector arrays was on the order of 1010 Jones for the mid-wave infrared wavelength range (3–5 μm).
Publisher
Springer Science and Business Media LLC
Reference37 articles.
1. A. Rogalski and Z. Bielecki, Detection of Optical Signals (Boca Raton: CRC Press, 2022).
2. P.W. Kruse, Uncooled Thermal Imaging Arrays, Systems, and Applications (Bellingham: SPIE Press, 2001).
3. J.L. Tissot, C. Trouilleau, B. Fieque, A. Crastes, and O. Legras, Uncooled microbolometer detector: recent developments at ULIS. Opto-Electron. Rev. 14, 25 (2006).
4. M. Abe, Y. Abe, N. Kogushi, K.S. Ang, R. Hofstetter, H. Wang, and G.I. Ng, High-performance modulation-doped AlGaAs/InGaAs thermopiles for uncooled infrared FPA application. Infrared Phys. Technol. 59, 182 (2013).
5. N. Neumann, M. Ebermann, K. Schreiber, and M. Heinze, Multi-colour and Tunable-Colour Pyroelectric Detectors (Dresden: InfraTec GmbH, 2008).