High performance germanium on silicon photodiodes for back-end-of-line photonic integration

Author(s)

Marzen, S; Postelnicu, E; Michel, J; Wada, K; Kimerling, LC

Abstract

Integration of near-infrared photodetectors in the back-end-of-line requires low temperature growth of Ge (<450 °C). We have fabricated high performance, vertical incidence Ge-on-Si photodiodes under thermal budget constraints with as-grown diodes achieving an internal quantum efficiency (IQE) of 38% and a dark current density of Jd = 272 μA/cm2 at a reverse bias of Vr = 5 V and a wavelength of λ = 1310 nm. The photodiode design incorporates a remote heterointerface, demonstrating that Ge material quality is sufficiently high for minority carriers to diffuse to the Ge/Si interface. Post-growth annealing improves device performance, including 500 °C 3 h exposure that improves IQE to 57% and Jd = 165  A/cm2. Low-temperature grown Ge-on-Si photodiodes give comparable performance to diodes processed at high temperatures despite thermal budget constraints.

Date issued

2023-09-11

URI

https://hdl.handle.net/1721.1/156903

Department

Massachusetts Institute of Technology. Department of Materials Science and Engineering

Journal

Applied Physics Letters

Publisher

AIP Publishing

Citation

S. Marzen, E. Postelnicu, J. Michel, K. Wada, L. C. Kimerling; High performance germanium on silicon photodiodes for back-end-of-line photonic integration. Appl. Phys. Lett. 11 September 2023; 123 (11): 111105.

Version: Final published version