SANTOS / Paris / Pune / San Jose / Denver / Urbana / London / /
Company
Infineum Corporation / Los Alamos National Laboratory / Optiva Inc. / Riso National Laboratory / ABC / TSI Inc / Tom Witelski / Mihaela Froehlich / Xerox Corporation / National Chemical Laboratory / /
Texas A&M University / Saint Joseph’s University / University of Liege / University of Rennes / University of Western Ontario / University of Illinois / Imperial College / Weizmann Institute of Science / Havard University / The Chinese University of Hong Kong / Emory University / Duke University / The University of Chicago / Rutgers University / James Madison University / North Carolina State University / University of Massachusetts Amherst / Kent State University / University of Massachusetts Amherst Physics / University of Cincinnati / University of Colorado / Oceanic Overflow Facility / Harvard University / Princeton University / University of Toulon / College of Cornell Univ. / Tel Aviv University / Carnegie Mellon University / Boston University / Rush University / University of Pittsburgh / Nanjing University / Middlesex College / University of Chicago / University of South Carolina / Kansas State University / University of Minnesota / Swarthmore College / Liquid Crystal Institute / University of Maryland / Massachusetts Institute of Technology / University of Pennsylvania / McGill University / Yale University / /
IndustryTerm
gas-liquid phase / oil exhibit self-organization behavior / energy minimization / unusual and complex self-assembled systems / constitutive law / inverse energy range / imaging / aqueous solution / complicated systems / inverse energy cascade range / turbulent kinetic energy contours / charged soft-matter systems / energy / colloidal solution / potential applications / granular systems / Energy flows / hydrocarbon oil / energy inverse-cascade subrange / power-law relationships / soft shoulder systems / power law / energy spectra / binary systems / active grid device / gas phase / numerical solutions / regular solution / concentrated hard sphere systems / reflective metal / aspect ratio systems / large bouncing oil drops / epifluorescence imaging / power law increase / oil / non-ideal solutions / experimental tool / stainless steel beads / hard-sphere dense particle systems / conserve energy / water solutions / bond energy / gradient energy / dense granular systems / food dye / discrimination algorithms / force chain network / aqueous solutions / force network / power-law behaviors / numerical solution / /
Organization
Havard University / UCLA / Los Angeles / University of South Carolina / University of Maryland / Chinese University of Hong Kong / Rutgers University / Physics Department / Organization of Bouncing Oil Drops / Princeton University / University of Massachusetts Amherst / Massachusetts Institute of Technology / McGill University / Duke University / Emory University / University of Pittsburgh / National Natural Science Foundation of China / Rush University / University of Chicago / University of Toulon / Tel Aviv University / Carnegie Mellon University / Texas A&M University / Division of Engineering and Applied Science / College of Cornell Univ. / Boston University / Saint Joseph’s University / North Carolina State University / Weizmann Institute of Science / Department of Mechanical and Aerospace Engineering / Univ of Illinois / Harvard University / Assembly of Particles / National Science Foundation / Israel Science Foundation / University of Pennsylvania / MIT / University of Colorado / University of Rennes / Department of Energy / SUNY / DEPARTMENT OF PHYSICS / Imperial College / Liquid Crystal Institute / DEPARTMENT OF CHEMICAL ENGINEERING / Yale University / Penn State Univ. / Nanoparticle / University of Western Ontario / Department of Applied Mathematics / Nanjing University / University of Illinois / Middlesex College / University of Cincinnati / Kansas State University / University of Liege / A30.00004 Self Assembly of Colloidal Particles / James Madison University / National Aeronautics and Space Administration / University of Massachusetts Amherst Physics / Kent State university / University of Minnesota / Swarthmore College / /
Person
KAREN E. DANIELS / CHRIS H. RYCROFT / ALEXANDRE MERLEN / DAVID WEITZ / BRIAN TIGHE / PABLO MININNI / HABIB SKAFF / SARAH NOWAK / KEN KAMRIN / TODD EMRICK / URMILA GHIA / MARIA SAMMALKORPI / MARTIN Z. BAZANT / JOSEPH MACLENNAN / HEINRICH JAEGER / CHRIS RYCROFT / MATT GLASER / JONATHAN PIETARILA GRAHAM / MATTHIEU CREYSSELS / NICOLAS VANDEWALLE / TIM PRISK / PAUL BEALE / JOSE-EDUARDO WESFREID / JOHN DRASKOVIC / PETER J. LU / JING ZHOU / MIKKO HAATAJA / PETER SCHIFFER / STEVE GRANICK / LIANG HONG / FRANCOIS LUDEWIG / COLM CONNAUGHTON / THOMAS SCHEIDEMANTEL / CLIFFORD E. CHAFIN / BENOIT LOPPINET / MELISSA HENDERSHOTT / SUZANNE LIEBER / ANDREW UTADA / ERIK K. HOBBIE / ANGELO CACCIUTO / DAVID A. WEITZ / GUO-JIE GAO / ERIC FALCON / MATTHEW LOHR / AHMED ALSAYED / TERRY BLUHM / HEE-YOUNG LEE / SUBHADEEP GAN / MICHAEL RIVERA / BERNARD CASTAING / THEODORE L. STECK / SHELLI L. FREY / JULIA COLE / ALEX FORE / Rayleigh-Taylor / SIDNEY NAGEL / MARIA KILFOIL / STEPHANE DORBOLO / MIKKO KARTTUNEN / MARIA K. RATAJCZAK / ARJUN YODH / CASEY CONGER / SIDNEY REDNER / NOEL CLARK / XIANG CHENG / CHAO SUN / SATISH KUMAR / SRINIVASA RAGHAVAN / DANIEL BLAIR / STEPHEN ANTHONY / ERIK LUIJTEN / LING-NAN ZOU / YEE C. LEE / YAN YU / TOM CHOU / JUN CHEN / PETER R. LANG / RON LIFSHITZ / ANDREW HARRIS / OLIVIER POUJADE / JUAN JOSE / MICHELLE TOMASIK / ANTHONY D. DINSMORE / ANNICK POUQUET / QING XIA / ROBERT SEKERKA / /
Position
RT / similar RT / Model / /
Product
A30.00001 ABSTRACT / A30.00002 ABSTRACT / /
ProvinceOrState
Minnesota / South Carolina / California / Colorado / New Jersey / Maryland / Illinois / Pennsylvania / Massachusetts / /