Publications

A novel method to optically generate PSBT format at 43 Gbit/s is proposed hereafter.

Introduction: Since the demonstration of the laser twenty- five years ago, the promise of very-high capacity communications via an optical carrier has stimulated wide-spread research on electro- o

The continuing increases in clock speed and electronic complexity of today's high performance digital systems have led to widespread investigation of new multi-technology interconnect and packaging

It is well known that efficient operation of a light heterodyne receiver requires a high degree of phase coherence between the received signal beam and the local oscillator beam.1 For example, if t

We review three recent experiments in which we have used optical techniques to investigate quantities relevant to high field transport in semiconductors.

A novel optical temporal log-slope difference mapping approach is proposed for cancerous breast tumor detection.

The concept of a Perfect Shuffle is reviewed. Holographic approaches based on implementing a point spread function equivalent to the sum of two shifted delta-functions are suggested.

In this communication, we report experimental results on optical injection of quantum dot (Q-dot) and quantum dash (Q-dash) semiconductor multi-mode lasers.

AT&T Microelectronics, Richmond Works, required an inspection system for verifying FASTECH(R) connector pin locations prior to electrical test.

We report the intensity modulation of an optical carrier at frequencies as high as 40 GHz using a Ti:LiNb0 sub 3 optical waveguide switch.