Add to ORKGNovel cavity engineering techniques are used to realize low noise, and stabilized optical frequency combs from quantum well and quantum dot based modelocked semiconductor diode lasers. Applications in high speed signal processing, secure communications and arbitrary waveform generation are highlighted. © 2006 IEEE
We utilize a novel hybrid wavelength division multiplexed, optical time division multiplexed (WDM-OT...
Optical frequency combs are used as a set of mutually coherently orthogonal signals to realize high ...
For high speed optical communications, we need lasers and modulators that can operate at high speeds...
Novel cavity engineering techniques are used to realize low noise, and stabilized optical frequency ...
Frequency stabilized modelocked lasers have recently garnered much attention owing to their potentia...
This presentation will report our recent results for ultrashort pulse generation, low timing jitter ...
This paper discusses use of optical frequency combs generated by modelocked semiconductor lasers for...
Compact, electrically efficient sources of ultrashort, high repetition rate laser pulses are becomin...
Compact, electrically efficient sources of ultrashort, high repetition rate laser pulses are becomin...
This paper discusses the development of modelocked semiconductor lasers to generate optical frequenc...
Stabilized ultrafast mode-locked lasers are developed to generate ultralow noise optical frequency c...
The development of compact sources of stabilized optical frequency combs from semiconductor diode la...
Optical frequency combs are garnering much attention in photonic applications related to optical com...
Modelocked semiconductor lasers are used to generate a set of phase locked optical frequencies on a ...
Optical frequency combs have been revolutionizing many research areas and are finding a growing numb...
We utilize a novel hybrid wavelength division multiplexed, optical time division multiplexed (WDM-OT...
Optical frequency combs are used as a set of mutually coherently orthogonal signals to realize high ...
For high speed optical communications, we need lasers and modulators that can operate at high speeds...
Novel cavity engineering techniques are used to realize low noise, and stabilized optical frequency ...
Frequency stabilized modelocked lasers have recently garnered much attention owing to their potentia...
This presentation will report our recent results for ultrashort pulse generation, low timing jitter ...
This paper discusses use of optical frequency combs generated by modelocked semiconductor lasers for...
Compact, electrically efficient sources of ultrashort, high repetition rate laser pulses are becomin...
Compact, electrically efficient sources of ultrashort, high repetition rate laser pulses are becomin...
This paper discusses the development of modelocked semiconductor lasers to generate optical frequenc...
Stabilized ultrafast mode-locked lasers are developed to generate ultralow noise optical frequency c...
The development of compact sources of stabilized optical frequency combs from semiconductor diode la...
Optical frequency combs are garnering much attention in photonic applications related to optical com...
Modelocked semiconductor lasers are used to generate a set of phase locked optical frequencies on a ...
Optical frequency combs have been revolutionizing many research areas and are finding a growing numb...
We utilize a novel hybrid wavelength division multiplexed, optical time division multiplexed (WDM-OT...
Optical frequency combs are used as a set of mutually coherently orthogonal signals to realize high ...
For high speed optical communications, we need lasers and modulators that can operate at high speeds...