Philip Hemmer
Professor
Solid State/Electronics Group Leader
Office: 216H Zachry
Phone: 979-845-8932
Fax: 979-845-3259

 

 

 

 

 

ECEN 600/ECEN 465 Lectures

1:   Introduction
2:   Machining
3:  Lab Book Samples
4:   Basic Opt Tricks
5:   Interference
6:   Laser Basics
7:   Basic Electronics
8:   Op-Amps
9:   Summary so far
10:  Lens
11:  AOMs
12:  Servos
13:  Lock-in Amplifiers
14:  Polarization
15:  Refraction
16:  Multi-Interference
17:  Dispersion
18:  ABCD
19:  Servo-Diagrams


Problem Set 4a

ECEN 674 Notes

Education:

• Ph.D., MIT, 1984, Physics
• B.S., University of Dayton, 1976

 

Interest Areas:

• Solid materials for quantum optics, especially "dark resonance" excitation
• Materials and techniques for resonant nonlinear optics
• Phase-conjugate-based turbulence aberration and compensation
• Spectral holeburning materials and techniques for ultra-dense memories and high temperature operation
• Quantum computing in solid materials
• Quantum communication and teleportation in trapped atoms
• Holographic optical memory materials
• Smart pixels devices
• Optical correlators
• Photorefractive applications
• Atomic clocks
• Laser trapping and cooling.

 

Teaching:

Fall 2003 : ELEN 689-602
Spring 2004: ELEN 489-501

 

Distinctions and Awards:

• National Science Foundation Fellowship
• Summa Cum Laude, University of Dayton
• Air Force Research Laboratory Chief Scientist's award, AFOSR Star Team Award (three times)

 

Professional Societies:

• Optical Society of America
• S.P.I.E.
• American Physical Society

Recent publications:

Toward Molecular-Scale MRI

Summary
Full Paper

Science perspectives: Where is my quantum computer

Summary
Full paper