Skip To Content

Martin Fejer

Martin Fejer

Stanford University, USA

Coherent MIR sources based on thin-film-lithium-niobate

The tight optical confinement available in thin-film lithium niobate (TFLN) waveguides provides strong nonlinear coupling, dispersion engineering for broadband/ultrafast operation and tight radius bends for multi-function integration, enabling a variety of broadly tunable CW and multi-octave supercontinuum sources.

About the Speaker

Martin Fejer is the J. G. Jackson and C. J. Wood Professor in Applied Physics at Stanford University, where he has served as department chair and Senior Associate Dean for the Natural Sciences. He works in the areas of nonlinear optical materials and devices, guided-wave and ultrafast optics, classical and quantum-optical signal processing and instrument science for gravitational-wave detectors. He has published over 500 papers in these areas and holds over 30 patents. He is a Fellow of Optica and the IEEE, was awarded Optica’s R. W. Wood Prize (1998) and was elected to National Academy of Sciences (2016).

Image for keeping the session alive