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Date Name Thumbnail Size Description Versions
04:35, 5 December 2009 AP284 ps5.JPG (file) 28 KB Excluded volume of rod molecules. AP284, Prof. Yacoby, Statistical Thermodynamics, HW 5, prob 3. 1
03:48, 5 December 2009 Mass production.JPG (file) 72 KB #274, H. Boukellal, S. Selimovic, Y. Jia, G. Cristobal and S. Fraden. mass production of the drop storage device 1
03:42, 5 December 2009 Store and create.jpg (file) 27 KB #274, H. Boukellal, S. Selimovic, Y. Jia, G. Cristobal and S. Fraden. device operation for "store and create" 1
03:38, 5 December 2009 Create then store.JPG (file) 39 KB #274, H. Boukellal, S. Selimovic, Y. Jia, G. Cristobal and S. Fraden. device operation for create, then store 1
03:20, 5 December 2009 Different fluid compositions.jpg (file) 57 KB #274, H. Boukellal, S. Selimovic, Y. Jia, G. Cristobal and S. Fraden. characterization of system with different fluid flow compositions 1
03:02, 5 December 2009 Drop storage design.JPG (file) 67 KB #274, H. Boukellal, S. Selimovic, Y. Jia, G. Cristobal and S. Fraden. drop storage device design 1
21:56, 4 December 2009 Fd large spheres.JPG (file) 17 KB #280, Z.Dogic and S.Fraden, 2006 fd virus with larger spheres. 1
21:47, 4 December 2009 Fd sphere phase images.JPG (file) 67 KB #280, Z.Dogic and S.Fraden, 2006 Images of fd+sphere phases 1
21:44, 4 December 2009 Illustration explanation lamellar.JPG (file) 15 KB #280, Z.Dogic and S.Fraden, 2006 Illustration of excluded volume leading to lamellar phase. 1
21:35, 4 December 2009 Phase Diagram fd spheres.JPG (file) 33 KB #280, Z.Dogic and S.Fraden, 2006 Phase diagram for fd virus with polystyrene spheres of diameter 100nm. 1
21:29, 4 December 2009 Fd phase diagram.JPG (file) 31 KB #280, Z.Dogic and S.Fraden, 2006 Phase diagram for fd virus relating surface charge to concentration of coexistence. 1
21:23, 4 December 2009 TMV I-N Phase Separation.JPG (file) 16 KB #280, Z.Dogic and S.Fraden, 2006 Images of isotropic-nematic phase separation in TMV viruses due to density difference. 1
21:06, 4 December 2009 Fd virus electron micrograph.JPG (file) 26 KB #280, Z.Dogic and S.Fraden, 2006 Electron microscopy image of fd virus 1
20:56, 4 December 2009 N-S Phase Transition illustration.JPG (file) 20 KB #280, Z.Dogic and S.Fraden, 2006 Illustration of bending rods when considering N-S phase transition. 1
20:44, 4 December 2009 I-N Phase Transition vs Conc.JPG (file) 16 KB #280, Z.Dogic and S.Fraden, 2006 Isotropic-Nematic phase transition as a function of concentration 1
03:46, 23 November 2009 M13-Polystyrene-Star(TEM Fluorescence).JPG (file) 39 KB TEM and fluorescence microscopy images of colloidal stars. Pair Potential of Charged Colloidal Stars. F. Huang, K. Addas, A. Ward, N.T. Flynn, E. Velasco, M.F. Hagan, Z. Dogic, and S. Fraden, Physical Review Letters 102, 108302 (2009). 1
18:55, 4 November 2009 Combined volumefrac.JPG (file) 29 KB J. Blouwolff and S. Fraden. "The coordination number of granular cylinders." Europhys. Letters, 76 (6), pp. 1095-1101 (2006). Two volume fraction graphs (versus excitation, aspect ratio) 1
18:54, 4 November 2009 ZVSaspectratio.JPG (file) 32 KB J. Blouwolff and S. Fraden. "The coordination number of granular cylinders." Europhys. Letters, 76 (6), pp. 1095-1101 (2006). Average coordination number as a function of aspect ratio. 1
17:06, 4 November 2009 ExcitationVSvolumefrac.JPG (file) 21 KB J. Blouwolff and S. Fraden. "The coordination number of granular cylinders." Europhys. Letters, 76 (6), pp. 1095-1101 (2006). Amount of excitation versus volume fraction of the rods. 1
16:59, 4 November 2009 BoundaryVSbulk.JPG (file) 30 KB J. Blouwolff and S. Fraden. "The coordination number of granular cylinders." Europhys. Letters, 76 (6), pp. 1095-1101 (2006). Distribution of coordination numbers in bulk versus boundary rods. 1
16:52, 4 November 2009 Picture rods.JPG (file) 27 KB J. Blouwolff and S. Fraden. "The coordination number of granular cylinders." Europhys. Letters, 76 (6), pp. 1095-1101 (2006). Picture of rods during experiment. 1
21:18, 1 November 2009 Kraack Organic LF(2 PA graph others).JPG (file) 31 KB H. Kraack, M. Deutsch, B.M. Ocko and P.S. Pershan, The structure of organic Languir films on liquid metal surfaces, Nuclear Inst. and Methods in Phys. Res. B 200, 363 (2003). Surface pressure versus molecular area graph for other organic langmuir films on 1
21:08, 1 November 2009 Kraack Organic LF(1 PA graph).JPG (file) 31 KB H. Kraack, M. Deutsch, B.M. Ocko and P.S. Pershan, The structure of organic Languir films on liquid metal surfaces, Nuclear Inst. and Methods in Phys. Res. B 200, 363 (2003). Surface pressure versus molecular area graph for stearic acid langmuir film on l 1
20:30, 1 November 2009 Octadecanoic acid (stearic).png (file) 50 KB Stearic Acid From Wikipedia, image made using Discovery Studio Visualizer 2.1. 1
18:00, 5 October 2009 Evaporating Droplet Finial 5b.JPG (file) 37 KB Self-Assembly of Spherical Particles on an Evaporating Sessile Droplet Michael Schnall-Levin, Eric Lauga, and Michael P. Brenner Langmuir 2006, 22, 4547-4551 final packing configuration for N = 5 particles, Alpha = 90 degrees, planar 1
17:54, 5 October 2009 Evaporating Droplet Finial 5.JPG (file) 26 KB Self-Assembly of Spherical Particles on an Evaporating Sessile Droplet Michael Schnall-Levin, Eric Lauga, and Michael P. Brenner Langmuir 2006, 22, 4547-4551 final packing configuration for N = 5 particles, Alpha = 90 degrees. 1
17:39, 5 October 2009 Evaporating Droplet Asymmetric.JPG (file) 25 KB Self-Assembly of Spherical Particles on an Evaporating Sessile Droplet Michael Schnall-Levin, Eric Lauga, and Michael P. Brenner Langmuir 2006, 22, 4547-4551 initial packings for N = 6,7,8 with Alpha > critical angle, resulting in asymmetric structures. 1
17:36, 5 October 2009 Evaporating Droplet Ring Pyramid.JPG (file) 38 KB Self-Assembly of Spherical Particles on an Evaporating Sessile Droplet Michael Schnall-Levin, Eric Lauga, and Michael P. Brenner Langmuir 2006, 22, 4547-4551 initial packings for N = 6,7,8 with Alpha < critical angle, resulting in ring and pyramid structu 1
16:59, 5 October 2009 Evaporating Droplet Initial.JPG (file) 22 KB Self-Assembly of Spherical Particles on an Evaporating Sessile Droplet Michael Schnall-Levin, Eric Lauga, and Michael P. Brenner Langmuir 2006, 22, 4547-4551 initial configuration 1
06:38, 25 September 2009 Argonne Natl Lab Mixed Layering.JPG (file) 43 KB Figure of alternating monolayers in mixed liquid metals. Taken from Argonne National Laboratories website: http://www.anl.gov/Media_Center/News/2005/CNM051125.html 1
05:52, 25 September 2009 Liquid Potassium Setup.JPG (file) 20 KB O. Shpyrko, P. Huber, A. Grigoriev, P. Pershan, B. Ocko, H. Tostmann, M. Deutsch. "X-ray study of the liquid potassium surface: Structure and capillary wave excitations". Physical Review B, 67 115405 (2003). Experimental setup for observing layering of li 1
05:41, 25 September 2009 Oleg Shpyrko Layering.jpg (file) 17 KB http://liquids.seas.harvard.edu/oleg/Research_Oleg.htm Oleg Shpyrko, illustration of layering in a liquid metal 1
17:32, 14 September 2009 Phase Diagram Nelson Halperin.JPG (file) 17 KB From "Dislocation-mediated melting in 2 dimension" by David R. Nelson and B.I. Halperin, Physics Review B, Vol 15, No 5, 1 March 1979, p. 2460, FIG 2. Speculative phase diagram for circularly symmetric molecules in an attractive potential. 1
15:26, 14 September 2009 Transition Sequences Nelson Halperin.JPG (file) 17 KB From "Dislocation-mediated melting in 2 dimension" by David R. Nelson and B.I. Halperin, Physics Review B, Vol 15, No 5, 1 March 1979, p. 2460, FIG 2. Potential melting transition sequences with different substrates. 1
15:16, 14 September 2009 Dislocation Nelson Halperin.JPG (file) 24 KB From "Dislocation-mediated melting in 2 dimension" by David R. Nelson and B.I. Halperin, Physics Review B, Vol 15, No 5, 1 March 1979, p. 2459, FIG 1. Elementary dislocation in trianglar and square lattices. 1