Authors: Benjamin Holt
Mentors: York Young
Insitution: Utah Valley University
Our research group aims to create an optical system which generates tunable longwave infrared (LWIR) light as a tool for early detection of disease-indicating molecules in human tissue. This system begins with our newly constructed Nd:YVO4-type laser which generates between five and seven watts of continuous wave optical power in the near IR spectrum. This laser light will be used to drive the subsystem responsible for generating LWIR light: an optical parametric oscillator.
In order for wavelength conversion to occur via a non-linear process, the near IR laser power serving as an optical drive must have an intensity on the order of tens of MW/cm2. To achieve such intensities the laser power must be concentrated into high intensity nanosecond length pulses by Q-switching the laser. Our method of Q-switching the Nd:YVO4 laser will be via an acousto-optic modulator in the laser cavity. My work to design the modulator’s kinematic mount, cooling system, and RF driver (as well as characterizing the performance of the modulator for use as a laser Q-switch) is described in this presentation.