Synchronization In Advanced Optical Communications

Kim, Inwoong

01 January 2006

The objective of this dissertation is to generate high power ultrashort optical pulses from an all-semiconductor mode-locked laser system. The limitations of semiconductor optical amplifier in high energy, ultrashort pulse amplification are reviewed. A method to overcome the fundamental limit of small stored energy inside semiconductor optical amplifier called "eXtreme Chirped Pulse Amplification (X-CPA)" is proposed and studied theoretically and experimentally. The key benefits of the concept of X-CPA are addressed. Based on theoretical and experimental study, an all-semiconductor mode-locked X-CPA system consisting of a mode-locked master oscillator, an optical pulse pre-stretcher, a semiconductor optical amplifier (SOA) pulse picker, an extreme pulse stretcher/compressor, cascaded optical amplifiers, and a bulk grating compressor is successfully demonstrated and generates >kW record peak power. A potential candidate for generating high average power from an X-CPA system, novel grating coupled surface emitting semiconductor laser (GCSEL) devices, are studied experimentally. The first demonstration of mode-locking with GCSELs and associated amplification characteristics of grating coupled surface emitting SOAs will be presented. In an effort to go beyond the record setting results of the X-CPA system, a passive optical cavity amplification technique in conjunction with the X-CPA system is constructed, and studied experimentally and theoretically.

mode-locked laser

semiconductor laser

optical pulse compression

chirped fiber Bragg grating

ultrafast laser

semiconductor optical amplifier

chirped pulse amplification

Electromagnetics and Photonics

Optics

Pulse Compression in a Mid-infrared Synchronously Pumped Optical Parametric Oscillator

Kurti, R. Steven, Jr.

20 January 2005

No description available.

pulse compression

SPOPO

optical parametric oscillator

OPO

optical pulse compression

silver gallium sulfide

AGS

AgGaS2

tunable radiation

tunable infrared

tunable mid-infrared

mid-infrared