NSF-Supported "Research Experiences for Undergraduates" (REU) Summer Program for Undergraduate Physics Majors

Summer 2008

Application Form

Undergraduate physics and engineering majors currently in their sophomore or junior year are invited to apply to the Lehigh University Summer Undergraduate Research Participation Program in Physics. This year the Department of Physics at Lehigh University has again been selected by the National Science Foundation as a "Research Experiences for Undergraduates" (REU) site. In addition, a number of Sherman Fairchild Scholarships for research in solid state studies and electrical engineering are also available. The Lehigh REU program is intended for students who plan to pursue graduate study in physics or related fields. Participants will receive $445 per week for a 10 week program in one of a variety of current research areas at Lehigh. The work will be supervised by Lehigh faculty and will begin around May 27, 2008. Free housing is also available to participants.

Current research activities available to participants (top)

Solid State Physics. Investigation of optical and electronic properties of defects in semiconductors and insulators using Raman and IR spectroscopy, luminescence spectroscopy, quantum transport, and a broad range of theoretical methods. Spectroscopy of charge carrier photoexcitation and charge transport dynamics in polar and molecular crystals. Theory of quantum charge transport and optical effects in nanotubes and polymer compounds. Raman and neutron scattering studies of phase transitions and phonons in disordered ferroelectrics and glasses. Profs. Biaggio, Dierolf, Fowler, Licini, Rotkin, Stavola, Toulouse. (Applicants interested in this area will also automatically be considered for Sherman Fairchild Summer Scholarships.)

Statistical Physics. Non-equilibrium fluctuations in gases. Chaotic transitions and 1/f dynamics. Statistical basis of hydrodynamics and nonlinear processes. Nonlinear dynamics of granular avalanches and flows. Hydrodynamic instabilities at fluid-fluid interfaces. Prof. Kim.

Biophysics. Experimental and theoretical studies of cellular biomechanics. Optical tweezers, light scattering, and optical microscopy of colloids, polymers, and biomaterials. Kinetics of phase transitions, including the crystallization of globular and membrane proteins. Mathematical modeling of the dynamics of the actin cytoskeleton during cell division and cell motion. Modeling of interactions of proteins, water, and nanotubes. Profs. Gunton, Ou-Yang, Rotkin, Vavylonis.

Atomic, Molecular, and Plasma Physics. Study of fundamental atom-atom interactions including velocity-changing collisions and diffusion, energy pooling collisions and fine-structure changing collisions. High-resolution spectroscopy of bound-bound and bound-free molecular transitions (including photodissociation). Molecular hyperfine structure. Collisional and collisionless phenomena of supercritical laser-produced plasmas. Study of energy, particle, and momentum transport in magnetically confined controlled fusion plasma experiments using integrated predictive modeling computer codes. Profs. Bateman, Hickman, Huennekens, Kim, Kritz.

Photonics and Nonlinear Optics. Linear and nonlinear optical properties of organic molecules, molecular assemblies, and crystals. Optical nonlinearities and nonlinear effects in fibers. Characterization and development of integrated optical devices: lasers, amplifiers, and nonlinear optical devices. Profs. Biaggio, Dierolf, Toulouse.

Astrophysics and Nuclear Physics. Quark models of nucleons and light nuclei. Quantitative spectroscopy and photometry of binary stars, Be stars, and young open clusters.  Analysis of optical, X-ray, and gamma-ray emission from relativistic particle acceleration in high mass X-ray binary systems. Profs. DeLeo, Folk, McCluskey, McSwain.

Electrical Engineering and Nano-Science. Silicon nanodevices, especially scaled MOSFETS with electron and hole transport in semiconductor inversion layers. Bioelectronics, including ion channel studies and patch-clamp experiments. Physical electronics of image sensors and flat panel displays. Theory of one-dimensional transistors and optoelectronics of nanotube materials. Profs. Hatalis, Rotkin, Tatic-Lucic, and White. (Applicants interested in this area will also automatically be considered for Sherman Fairchild Summer Scholarships.)

Materials Science. Defect energetics and dynamics in solids, kinetics of phase transitions, development of computer simulation methodologies, and mechanical properties of metals and ceramic oxides. Numerous opportunities also exist in a wide variety of interdisciplinary research projects involving glass through Lehigh's International Materials Institute for New Functionality in Glass. Possible topics include biofunctional glasses; glassy nano composites and meta materials; novel photoinduced phenomena; nano lithography; ionic, optical and photonic glasses; etc. Profs. Biaggio, Dierolf, Jain, Rickman.

Click here to apply on or before March 7, 2008.
Awards will be announced beginning in late February and continuing through early April.

For further information concerning individual research projects and programs, please visit the department web site. (home) Questions concerning the REU program can be addressed to:

Prof. John Huennekens
Department of Physics
16 Memorial Drive East
Lehigh University
Bethlehem, PA 18015
e-mail address: jph7@lehigh.edu