Publications

Publications / Journal Article

Electrical tuning of a terahertz quantum cascade laser based on detuned intersubband absorption

Gao, Liang; Zhao, Le; Reno, J.L.; Kumar, Sushil

A mechanism to electrically tune the frequency of terahertz quantum cascade lasers (QCLs) is developed that allows for tuning, while the QCL is operated close to its peak bias and temperature. Two optically coupled but electrically isolated cavities are used in which the bias of a control cavity tunes the resonant-mode of the coupled QCL cavity independent of the QCL's operating bias. Approximately 4 GHz electrical tuning is realized for a 3.6 THz distributed-feedback QCL operating in pulsed mode at 58 K in a Stirling cooler. The single-mode QCL emits near-constant peak-power in the range of 5 - 5.3 mW through the tuning range and radiates in a narrow single-lobed beam with a far-field divergence of ∼ 4 ° × 11 °. The superlattice structure of the QCL is designed to implement a low-voltage intersubband absorption transition that is detuned from that of its gain transition, the strength of which could be controlled sensitively with applied voltage utilizing resonant-tunneling injection of electrons in the absorption subband. The tuning is realized by the application of small bias voltages (∼ 6 - 7 V) and requires a narrow bias range (∼ 1 V, ∼ 40 A / cm 2) to traverse across the entire tuning range, and the method should be generally applicable to all intersubband lasers including mid-infrared QCLs.