Keyword Index
As an aid to website visitors who are searching for information about a particular physics research topic or technique, the index below lists keywords for the main topics and techniques under investigation in our department, and connects these keywords to the faculty member(s) most closely involved. The web pages for relevant faculty member(s) offer additional particulars, including contact information.
baryon resonances: Manley
bioinformatics: Portman
biophysics: Allender, Balci, Kumar, Mann, Portman
biopolymers: Allender, Portman
biological membranes: Allender, Portman
biomaterials (lipids, surfactants, cholesterols): Allender, Mann
carbon nanotube polymer composites: Kumar, Sprunt
complex fluids: Gleeson, Mann
computational biophysics: Portman
computational physics: Portman
DNA physics Balci
education (sponsored research): Barrick, Christensen, Ellman, Emmons, Katramatou, Mann, Portman
electrohydrodynamics: Gleeson
field-theory: Fai, Quader, Tandy
flourescence correlation spectroscopy: Kumar, Mann
grid computing: Keane, Margetis
Hall effect: Almasan, Schroeder
heavy-ion collisions: Fai, Keane, Margetis
heavy fermions: Almasan, Quader, Schroeder
high temp superconductors: Almasan, Ellman, Quader, Schroeder
liquid crystals: Allender, Finotello, Gleeson, Kumar, Mann, Sprunt
magnetoresistance: Almasan, Schroeder
magnetic properties of materials: Almasan, Schroeder
microcalorimetry: Ellman, Finotello
microfabrication: Kumar
microscopy (tunneling and atomic force): Ellman
millikelvin refrigeration: Almasan, Ellman, Finotello
nano-materials: Kumar, Sprunt
neutron detectors: Anderson, Madey, Watson
neutron polarimeters: Anderson, Madey, Watson
neutron scattering (condensed matter): Kumar, Schroeder
nuclear form factors: Anderson, Katramatou, Madey, Petratos, Watson
nuclear magnetic resonance: Finotello
nuclear structure: Anderson, Madey, Watson
optics (electro-optics, nonlinear, etc): Gleeson, Sprunt
partial-wave analyses: Manley
particle/nuclear physics: Anderson, Fai, Katramatou, Keane, Madey, Manley, Margetis, Petratos, Tandy, Watson
pattern-recognition software & neural nets: Keane, Margetis
protein folding & protein interactions: Portman
quark-gluon physics: Fai, Keane, Margetis
relativistic nuclear collisions: Fai, Keane, Margetis
RNA dynamics: Portman
semiconductors (organic): Ellman
single molecule fluorescence: Balci
spin of the nucleon: Anderson, Katramatou, Petratos, Watson
SQUID magnetometry: Ellman
structure functions (neutron & proton): Katramatou, Petratos
superconductivity: Almasan, Ellman, Quader, Schroeder
superfluidity: Finotello
surface physics: Finotello, Mann
synchrotron x-ray scattering: Kumar
two-dimensional systems: Finotello, Mann
x-ray scattering: Kumar
baryon resonances: Manley
bioinformatics: Portman
biophysics: Allender, Balci, Kumar, Mann, Portman
biopolymers: Allender, Portman
biological membranes: Allender, Portman
biomaterials (lipids, surfactants, cholesterols): Allender, Mann
carbon nanotube polymer composites: Kumar, Sprunt
complex fluids: Gleeson, Mann
computational biophysics: Portman
computational physics: Portman
DNA physics Balci
education (sponsored research): Barrick, Christensen, Ellman, Emmons, Katramatou, Mann, Portman
electrohydrodynamics: Gleeson
field-theory: Fai, Quader, Tandy
flourescence correlation spectroscopy: Kumar, Mann
grid computing: Keane, Margetis
Hall effect: Almasan, Schroeder
heavy-ion collisions: Fai, Keane, Margetis
heavy fermions: Almasan, Quader, Schroeder
high temp superconductors: Almasan, Ellman, Quader, Schroeder
liquid crystals: Allender, Finotello, Gleeson, Kumar, Mann, Sprunt
magnetoresistance: Almasan, Schroeder
magnetic properties of materials: Almasan, Schroeder
microcalorimetry: Ellman, Finotello
microfabrication: Kumar
microscopy (tunneling and atomic force): Ellman
millikelvin refrigeration: Almasan, Ellman, Finotello
nano-materials: Kumar, Sprunt
neutron detectors: Anderson, Madey, Watson
neutron polarimeters: Anderson, Madey, Watson
neutron scattering (condensed matter): Kumar, Schroeder
nuclear form factors: Anderson, Katramatou, Madey, Petratos, Watson
nuclear magnetic resonance: Finotello
nuclear structure: Anderson, Madey, Watson
optics (electro-optics, nonlinear, etc): Gleeson, Sprunt
partial-wave analyses: Manley
particle/nuclear physics: Anderson, Fai, Katramatou, Keane, Madey, Manley, Margetis, Petratos, Tandy, Watson
pattern-recognition software & neural nets: Keane, Margetis
protein folding & protein interactions: Portman
quark-gluon physics: Fai, Keane, Margetis
relativistic nuclear collisions: Fai, Keane, Margetis
RNA dynamics: Portman
semiconductors (organic): Ellman
single molecule fluorescence: Balci
spin of the nucleon: Anderson, Katramatou, Petratos, Watson
SQUID magnetometry: Ellman
structure functions (neutron & proton): Katramatou, Petratos
superconductivity: Almasan, Ellman, Quader, Schroeder
superfluidity: Finotello
surface physics: Finotello, Mann
synchrotron x-ray scattering: Kumar
two-dimensional systems: Finotello, Mann
x-ray scattering: Kumar
