Microwave Frequency Comb Generation by Gain-Switching Versus Relaxation Oscillations

Optical generation of a precise microwave frequency comb by harmonic frequency locking.

A semiconductor laser under negative optoelectronic feedback is applied to the generation of a microwave frequency comb through the nonlinear dynamics. The laser system is operated in a harmonic frequency-locked pulsing state, where its power spectrum is a microwave frequency comb that consists of multiples of a locking frequency. Every frequency component of the comb can be simultaneously stab...

Optical frequency comb generation by pulsed pumping

Micro-Doppler Frequency Comb Generation by Axially Rotating Scatterers

Electromagnetic scattering in accelerating reference frames inspires a variety of phenomena, requiring employment of general relativity for their description. While the ‘quasi-stationary field’ analysis could be applied to slowly-accelerating bodies as a first-order approximation, the scattering problem remains fundamentally nonlinear in boundary conditions, giving rise to multiple frequency ge...

Widely tunable extreme UV frequency comb generation.

Extreme UV (XUV) frequency comb generation in the wavelength range of 51 to 85 nm is reported based on high-order harmonic generation of two consecutive IR frequency comb pulses that were amplified in an optical parametric chirped pulse amplifier. The versatility of the system is demonstrated by recording direct XUV frequency comb excitation signals in He, Ne, and Ar with visibilities of up to ...

Optical Frequency Comb Generation in Monolithic Microresonators

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