A new, miniature laser source developed by applied physicists in the Harvard John A. Paulson School of Engineering and ...

In a paper that made the cover of the journal Applied Physics Letters, an international team of researchers has demonstrated an innovative technique for increasing the intensity of lasers. This ...

Optical frequency combs—laser sources that emit evenly spaced colors of light—are foundational, ubiquitous tools for precision measurement, found in optical clocks, gas-sensing spectrometers, and ...

Dongchel Shin, a PhD candidate in mechanical engineering and the lead author of a new paper that demonstrates laser cooling of a centimeter-long torsional oscillator, works on an optical setup. Credit ...

Engineering physics blends concepts from engineering, physics, and math in an effort to bridge the gap between theoretical science and practical engineering. Engineering physicists focus on research ...

Darwin Quiroz is exploring new frontiers in miniature lasers with major biomedical applications. When Quiroz first started working with optics as an undergraduate, he was developing atomic ...

Applied physics bridges the gap between physics, engineering, and other sciences. While engineers solve well-defined problems, applied physicists focus on applying physics interdisciplinarily. At ...

With an applied physics: optics degree, you’ll gain specialized expertise in optics, preparing you for diverse career opportunities in technology, research, and academia. Become who you’re meant to be ...

Applied physics is perfect for students fascinated by physics, but who don't see themselves strictly pursuing a laboratory position. You'll be prepared for a career in industry or engineering allowing ...