Weinheim / Upton / Cambridge / Chichester / London / New York / Wiley / Paris / /
Company
Frinton Laboratories / United Chemical Technologies / Brookhaven National Laboratory / Swift Glass Co. / /
Country
United States / United Kingdom / / /
Facility
Harvard University / /
IndustryTerm
Inverse systems / interfacial energy / lower surface energy / optoelectronic devices / organic photovoltaic devices / model systems / Composite systems / chemical potential / surface energy / reduced chemical potential / power law behavior / overall interfacial energy / power law / alkyl chain / expected power law / /
Movie
D. V / /
Organization
Harvard University / U.S. Department of Energy / National Science Foundation / Department of Physics / U.S. Securities and Exchange Commission / /
Person
S. D. Kosowsky / J. Als-Nielsen / J. Thoen / Y. F. Yano / A. H. Weiss / Antonio Checco / D. K. Schwartz / S. K. Sinha / H. Marynissen / W. Pisula / P. S. Pershan / I. M. Tidswell / W. Van Dael / O. Gang / X. Z. Wu / CRYSTAL SURFACES / P. Huber / T. A. Rabedeau / A. Braslau / B. M. Ocko / M. L. Schlossman / E. B. Sirota / M. Fukuto / C. T. Black / M. Deutsch / K. J. Alvine / D. McMorrow / R. K. Heilmann / /
Position
columnar director to the development / representative / director fields / /
PHYSICAL REVIEW E 77, 031607 共2008兲 Wetting of liquid-crystal surfaces and induced smectic layering at a nematic-liquid interface: An x-ray reflectivity study 1