1) Polarization studies and Electro-optic Light Modulators - We examine ways of generating various polarization states and analyzing them using a technique called Jones Matrices. We examine various devices that allow the modulation of the polarization state including polarizers, waveplates, a Soleil Babinet Compensator and an electro-optic light modulator.

2) Acousto-optic Light Modulators - A diffraction grating can be generated in a piece of glass by sending a sound wave through it. This diffraction grating will deflect a laser beam by an angle that is proportional to the frequency of sound. The intensity of the diffracted beam is proportional to the driving voltage that generates the sound wave. We study the physics of this device and apply it to optical signal processing.

3) Fiber optics - We analyze the principles of optical fiber communication systems including the numerical aperture and absorption of the fiber. Then we examine the pulse dispersion of the fiber - when an extremely short pulse enters into the fiber, it emerges broadened in time. We investigate the various causes for this including the fiber, the detector, and the measuring equipment. We also examine the solutions of the wave equation within a fiber waveguide.

4) Laser Physics - We examine the physics of a helium neon laser. We measure the single pass gain. We study the confocal scanning Fabry Perot interferometer and use it to examine the resonance frequencies of the laser modes for hemiconfocal and confocal laser cavities. We introduce losses inside the laser cavity to make the laser oscillate in different transverse modes. Finally we replace the rear mirror with a prism and change the output color from red to yellow.

5) Holography - We set up the optical system for making holograms emphasizing the coherence length of the laser and spatial filters. Then we expose and develop the film, and analyze the resulting images that result from the hologram. Both transmission and reflection holograms are made.

6) Optical Image Processing and Optical Pattern Recognition - In optical image processing, the Fraunhofer diffraction pattern of an input object in an input plane is formed. Selected information is removed and the Fraunhofer diffraction pattern of that pattern is taken. The resulting image in the output plane is altered - for example the edges of the object can be enhanced. In the second part of the experiment, we place a specially made hologram in the second plane. If it is made correctly, we will have a bright spot of light in the output plane when a desired object is placed in the input plane.

7) Fourier transform Spectroscopy with a Michelson Interferometer - We analyze the interference pattern created by the Michelson Interferometer and examine the spectral output of various light sources. We use a computer system to perform the Fourier transform of the output of the Interferometer.

8) Erbium doped optical fiber amplifiers - we are currently developing a new experiment on erbium doped optical fiber amplifiers. This includes a pump laser, a tunable probe laser, various lengths of erbium-doped optical fiber, devices for coupling various wavelengths, and optical fiber Bragg gratings that act as mirrors and will allow construction of an all fiber laser.

9) Multilayer dielectric optical coatings or photonic crystals — Multilayer dielectric optical coatings and photonic crystals are made by forming layers in 1,2, or 3 dimensions of different materials having different indices of refraction. These can be mimicked in the RF frequency region by using a sequence of 50 and 75-ohm coax cables. Various experiments are performed including mirror structures, Fabry Perot interferometers, and structures that show superluminal light transmission.

a) Optical Society of America - http://www.osa.org/

b) SPIE-The International society for Optical Engineering - http://www.spie.org/

c) American Physical Society - http://positron.aps.org/

d) American Institute of Physics — http://www.aip.org/

Career Information — these web sites show job informationhttp://positron.aps.org/jobs/ This is run by American Physical Society

1. http://positron.aps.org/jobs/ This is run by American Physical Society

2. http://www.aip.org/careersvc This is run by the American Institute of Physics

3. http://www.osa.org/employ/ This is operated by the Optical Society of America

4. http://spieworks.com/employment/ This is operated by SPIE

5. http://www.photonicsjobs.com/ This is run by one of the trade magazines

6. http://www.photonics.com/employment/XQ/ASP/QX/index.html This is run by one of the trade magazine

Mentoring — these web sites offer mentoring for Women in the Sciences.

a) http://www.spie.org/wio/home.html This is operated by SPIE

b) http://www.osa.org/wosa/ This is operated by OSA

c) http://www.mentornet.net

Please click here for a list of the Publications of Jeff Davis, including identification of student coauthors

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