Insitu Contact Resistance Evaluation of 2.6-2.9 THz Quantum Cascade Lasers

Neelima Chandrayan; Krongtip Tremkoa; Jin Li; Xifeng Qian; Shivashankar Vangala; William Goodhue; Andriy Danylov; Jerry Waldman; Robert Giles; William Nixon

Insitu Contact Resistance Evaluation of 2.6-2.9 THz Quantum Cascade Lasers

ORAL

Abstract

The fabrication of THz Quantum Cascade Lasers (QCL) requires a strong understanding of the two electrical contacts of the device. Contact resistance as well as contact/semiconductor interdiffusion properties must be designed to minimize series resistance, free carrier absorption, and e-e scattering. Here, insitu measurement of contact resistance using Transmission Line Measurement (TLM) pads has been implemented in the fabrication of 2.6-2.9 THz quantum cascade lasers. The measurement of contact resistances as part of device processing also verifies the correct etch depth of laser structure, uniformity of the etching, and the ohmic nature of the contacts. For example, the procedure has been used to successfully fabricate 2.93 THz lasers with 5 mW of continuous wave output power.

March 19, 2009, 3:18 PM – March 19, 2009, 3:30 PM

Authors

Neelima Chandrayan
- Photonics Center, Dept. of Physics, UMass Lowell
Krongtip Tremkoa
- Photonics Center, Dept. of Physics, UMass Lowell
Jin Li
- Photonics Center, Dept. of Physics, UMass Lowell
Xifeng Qian
- Photonics Center, Dept. of Physics, UMass Lowell
Shivashankar Vangala
- Photonics Center, Dept. of Physics, UMass Lowell
William Goodhue
- Photonics Center, Dept. of Physics, UMass Lowell
Andriy Danylov
- Sub-millimeter Wave Technology Lab, Dept. of Physics, UMass Lowell
Jerry Waldman
- Sub-millimeter Wave Technology Lab, Dept. of Physics, UMass Lowell
Robert Giles
- Sub-millimeter Wave Technology Lab, Dept. of Physics, UMass Lowell
William Nixon
- U.S. Army National Ground Intelligence Center