English

Low-threshold optically pumped lasing in highly strained Ge nanowires

Optics 2018-02-07 v1 Mesoscale and Nanoscale Physics

Abstract

The integration of efficient, miniaturized group IV lasers into CMOS architecture holds the key to the realization of fully functional photonic-integrated circuits. Despite several years of progress, however, all group IV lasers reported to date exhibit impractically high thresholds owing to their unfavorable bandstructures. Highly strained germanium with its fundamentally altered bandstructure has emerged as a potential low-threshold gain medium, but there has yet to be any successful demonstration of lasing from this seemingly promising material system. Here, we demonstrate a low-threshold, compact group IV laser that employs germanium nanowire under a 1.6% uniaxial tensile strain as the gain medium. The amplified material gain in strained germanium can sufficiently surmount optical losses at 83 K, thus allowing the first observation of multimode lasing with an optical pumping threshold density of ~3.0 kW cm^-^2. Our demonstration opens up a new horizon of group IV lasers for photonic-integrated circuits.

Keywords

Cite

@article{arxiv.1708.04568,
  title  = {Low-threshold optically pumped lasing in highly strained Ge nanowires},
  author = {Shuyu Bao and Daeik Kim and Chibuzo Onwukaeme and Shashank Gupta and Krishna Saraswat and Kwang Hong Lee and Yeji Kim and Dabin Min and Yongduck Jung and Haodong Qiu and Hong Wang and Eugene A. Fitzgerald and Chuan Seng Tan and Donguk Nam},
  journal= {arXiv preprint arXiv:1708.04568},
  year   = {2018}
}

Comments

31 pages, 9 figures

R2 v1 2026-06-22T21:15:17.752Z