Sep 23, 2024 · Our lab focuses on mesoscopic physics and nanophotonics. Our aim is to better understand and control light propagation, scattering, absorption and lasing in complex photonic nanostructures for a wide range of applications.

Hui Cao is the John C. Malone Professor of Applied Physics and of Physics, and Professor of Electrical Engineering. Her research focuses on mesoscopic physics, complex nanophotonics, and biophotonics.

Cao, H. Cao, “The Effect of Dissipation of Plasmas on Spontaneous Radiation Intensity of Ionized Atom”, J. Phys. B , vol. 26, p. 3959-3973, Nov. 1993. Curriculum Vitae Hui Cao 4

Brandon Redding and Hui Cao* Department of Applied Physics, Yale University, New Haven, Connecticut 06520 USA *Corresponding author: [email protected] Received June 13, 2012; revised July 10, 2012; accepted July 17, 2012; posted July 18, 2012 (Doc. ID …

The Hui Cao Research Laboratory at Yale University focuses on unconventional lasers, novel photonic devices, and their unique applications in imaging and microscopy.

Apr 29, 2012 · Brandon Redding1*, Michael A. Choma2,3†* and Hui Cao1,4†* Manyimagingapplicationsrequireincreasinglybrightillumina-tion sources, motivating the …

Hui Cao Department of Applied Physics, Yale University, New Haven, CT 06520, United States of America E-mail: [email protected] 1. Introduction A speckle pattern denotes a random granular distribution of intensity generated, e.g., by light scattered from a rough surface or transmitted through a multimode fiber.

*Correspondingauthor:[email protected] Received 25 September 2020; revised 20 November 2020; accepted 23 November 2020 (Doc. ID 411007); published 22 January 2021 Speckle patterns have been used widely in imaging techniques such as …

Qinghai Song, and Hui Cao, "Highly directional output from long-lived resonances in optical microcavity", Opt. Lett. , vol. 36, 103, 2011. [ Click here to Download ] 121.

4. H. Cao et al. Rev. Mod. Phys. 87, 61 (2015). Taming Laser Instabilities with Chaos H igh-power semiconductor lasers are widely used for machining, laser surgery, lidar systems and large-scale displays. But high power levels require broad-area cavities, and the nonlinear interaction of many transverse modes with the active medium leads to self-