IAS Program on Frontiers of Soft Matter Physics: from Non-Equilibrium Dynamics to Active Matter

Total Page：16

File Type：pdf, Size：1020Kb

IAS Program on Frontiers of Soft Matter Physics: from Non-equilibrium Dynamics to Active Matter 6 – 10 Tutorials / Lectures 13 – 17 JAN International Conference 20 – 24 2014 Junior-Scientist / Student / Postdoc Workshops HKUST Jockey Club Institute for Advanced Study, Lo Ka Chung Building, Lee Shau Kee Campus, The Hong Kong University of Science and Technology (HKUST) Invited Speakers of the International Conference & Tutorial Lecturers Jerome Bibette ESPCI Paris Tech Daniel Ou-Yang** Lehigh University Paul Chaikin* New York University Hyunggyu Park** Korea Institute for Advanced Study Elisabeth Charlaix Université Joseph Fourier de Grenoble Eric Perez École Normale Supérieure Hsuan-Yi Chen National Central University Tiezheng Qian HKUST I-Liang Chern National Taiwan University Sriram Ramaswamy Tata Institute of Fundamental Research Itai Cohen Cornell University Weiqing Ren National University of Singapore John Crocker University of Pennsylvania Masaki Sano** University of Tokyo Masao Doi* Beihang University Ping Sheng** HKUST Haiping Fang Chinese Academy of Sciences Jue Shi Hong Kong Baptist University James J. Feng University of British Columbia Anderson Shum University of Hong Kong Daan Frenkel* University of Cambridge Shuyu Sun King Abdullah University of Sci. & Tech. Local Organizing Committee Yilong Han HKUST Nico van der Vegt Technical University of Darmstadt Robert Kohn* New York University Xiaoping Wang HKUST Penger Tong Chair HKUST Ming-Chih Lai National Chiao Tung University Eric Weeks Emory University Ping Sheng Co-chair HKUST Pik-Yin Lai** National Central University David Weitz* Harvard University Xiaoping Wang Co-chair HKUST Alexander Levine University of California, Los Angeles Xiangjun Xing Shanghai Jiao Tong University Emily S. C. Ching Chinese University of Hong Kong Ming Li Chinese Academy of Sciences Lei Xu Chinese University of Hong Kong Yilong Han HKUST Chun Liu Pennsylvania State University Ning Xu University of Sci. & Tech. of China Jue Shi Hong Kong Baptist University Tom Lubensky* University of Pennsylvania Hepeng Zhang Shanghai Jiao Tong University Anderson Shum University of Hong Kong Yuqiang Ma Nanjing University Zexin Zhang Soochow University Lei Xu Chinese University of Hong Kong Fred MacKintosh VU University * Keynote speakers ** Tutorial lecturers Sponsors HKUST Jockey Club Institute for Advanced Study School of Science, HKUST Enquiries: [email protected] / +852-2358-5064 Department of Physics, HKUST PTC-G15434 Department of Mathematics, HKUST http://iasprogram.ust.hk/201401/iassmp/.

Copy Link

Recommended publications

UNIVERSITY of CALIFORNIA Los Angeles Between Two Worlds: a Social History of Okinawan Musical Drama a Dissertation Submitted In
UNIVERSITY OF CALIFORNIA Los Angeles Between Two Worlds: A Social History of Okinawan Musical Drama A dissertation submitted in partial satisfaction of the requirements for the degree Doctor of Philosophy in Ethnomusicology by James Rhys Edwards 2014 © Copyright by James Rhys Edwards 2014 ABSTRACT OF THE DISSERTATION Between Two Worlds: A Social History of Okinawan Musical Drama by James Rhys Edwards Doctor of Philosophy in Ethnomusicology University of California, Los Angeles, 2014 Professor Roger Savage, Chair In 1879, Japan annexed the Ryūkyū Islands, dissolving the nominally independent Ryūkyū Kingdom and establishing Okinawa Prefecture. This inaugurated Imperial Japan’s expansion beyond the historical naichi or “inner lands.” It also set in motion a structural transformation of Okinawan society, marked by the end of tribute trade with China, the abolition of a centuries-old status system, and the gradual modernization of the economy. This process was painful, pitting the interests of the traditional Okinawan elite against those of Japanese administrators, with Okinawan peasants and laborers caught in the middle. The epicenter of this process was the prefectural capital of Naha – and for many Okinawans, particularly working class women, the soul of Naha was its commercial theater. This dissertation approaches prewar Okinawan commercial theater both as an institution and as a space of experience and expression. Its main focus is vernacular musical drama or kageki, which was created by classical performing artists disenfranchised by the dissolution of ii the court. Musical dramas such as A Peony of the Deep Mountains (Okuyama no botan) and Iejima Romance (Iejima Handō-gwa) draw selectively on both courtly and popular traditions, fusing the poetic sophistication of kumiodori dance-drama with the mass appeal of folk song and dance.
[Show full text]
2007 APS March Meeting Denver, Colorado
2007 APS March Meeting Denver, Colorado http://www.aps.org/meetings/march i Monday, March 5, 2007 8:00AM - 11:12AM — Session A29 DFD: Focus Session: Colloids I Colorado Convention Center 303 8:00AM A29.00001 How confinement modifies the colloidal glass transition1 ERIC R. WEEKS, Emory University — We study concentrated colloidal suspensions, a model system which has a glass transition. These are suspensions of small solid particles in a liquid, and exhibit glassy behavior when the particle concentration is high; the particles are roughly analogous to individual molecules in a traditional glass. We view the motion of these colloidal particles in three dimensions by using an optical confocal microscope. This allows us to directly study the microscopic behavior responsible for the macroscopic viscosity divergence of glasses. In particular, we study how confinement changes the particle dynamics. We confine a colloidal suspension between two parallel walls, and find that in thin sample chambers the particle motion is greatly slowed. This suggests that confinement causes the onset of the glass transition to happen “sooner,” at particle concentrations which are not normally glassy. 1Supported by the National Science Foundation under Grant No. DMR-0239109. 8:36AM A29.00002 Periodic Stresses and Shear Thickening in an Attractive Colloidal Gel1 , CHINEDUM OSUJI, DAVID WEITZ, Applied Physics, Harvard University — We report on the observation of periodic stresses in a colloidal gel at rest and under minute shear deformation. Dilute suspensions of carbon black colloidal particles in hydrocarbon oil with an attractive Van der Waals interaction are found to shear thicken in two distinct regimes. The first, low shear rate regime is ascribed to network elongation and the high shear regime to hydrodynamic clustering, akin to that observed in concentrated hard sphere systems.
[Show full text]
Kent Kirshenbaum
KENT KIRSHENBAUM Professor, Department of Chemistry New York University New York, NY 10003-6688 [email protected] (212) 998-8486 EDUCATION Ph.D., Pharmaceutical Chemistry 1999 University of California, San Francisco B.A., Chemistry 1994 Reed College, Portland, Oregon PROFESSIONAL EXPERIENCE Professor 2014-present Associate Professor 2008-2014 Assistant Professor 2002-2008 New York University, Department of Chemistry appointed to faculty of Sackler Institute of Biomedical Sciences, NYU School of Medicine, 2008 appointed to NYU Cancer Institute, NYU School of Medicine, 2011 Visiting Associate Professor 2010-2012 Univ. of California, San Francisco Dept. of Bioengineering & Therapeutic Sciences Postdoctoral Fellow 1999-2002 California Institute of Technology Division of Chemistry and Chemical Engineering (with Prof. David Tirrell) Visiting Scientist 1995-1999 Chiron Corporation, Emeryville, CA Bioorganic Chemistry Group (with Dr. Ronald Zuckermann) Graduate Research Assistant 1994-1999 University of California, San Francisco Department of Pharmaceutical Chemistry (with Prof. Ken Dill) ACADEMIC HONORS AND AWARDS • New York City Bio-Accelerate Competition 2016 • Golden Dozen Award for Teaching (NYU) 2011 • National Science Foundation CAREER Award 2007-2012 • Alzheimer’s Association New Investigator 2005-2007 • James D. Watson Investigator Award (NYSTAR) 2004-2006 • N.R.S.A. Postdoctoral Fellowship (NIH) 2000-2002 • Frank Goyan Award in Physical Chemistry (UCSF) 1998 • Training Grant in Pharmaceutical Sciences (UCSF) 1995-1998 • University of California
[Show full text]
Chaikin Professor of Physics, New York University
Quantifying hidden order out of equilibrium Paul Chaikin Professor of Physics, New York University While the equilibrium properties, states, and phase transitions of interacting systems are well described by statistical mechanics, the lack of suitable state parameters has hindered the understanding of non-equilibrium phenomena in diverse settings, from glasses to driven systems to biology. Here we introduce a simple idea enabling the quantification of organization in non-equilibrium and equilibrium systems, even when the form of order is unknown. The length of a losslessly compressed data file is a direct measure of its information content. We use lossless data compression to study several out-of-equilibrium systems, and show that it both identifies ordering and reveals critical behavior and even some critical exponents in dynamical phase transitions. Our technique should provide a quantitative measure of organization in systems ranging from condensed matter systems in and out of equilibrium, to cosmology, biology and possibly economic and social systems. Bio: After graduating from Stuyvesant High School in New York City, Paul Chaikin earned his B.S. in physics from California Institute of Technology and his Ph.D. in physics from the University of Pennsylvania. He was physics faculty at UCLA, University of Pennsylvania and Princeton University, before joining New York University. He joined as staff at Exxon in 1983 and has remained with Exxon/Mobil since. He co-authored the text Principles of Condensed Matter Physics. He is the recipient of the 2018 Oliver E. Buckley Condensed Matter Physics Prize "for pioneering contributions that opened new directions in the field of soft condensed matter physics through innovative studies of colloids, polymers, and packing." Dr.
[Show full text]
061797-Sem News
SEM Newsletter Published by the Society for Ethnomusicology Volume 38 • Number 4 • September 2004 SEM Soundbyte Rayna Green, 2004 By Timothy Rice, SEM President Seeger Lecturer By Tara Browner, University of How is SEM doing on diversity? California, Los Angeles At the annual meeting in Tucson, the President’s Roundtable on Friday after- Rayna Green, curator of the Ameri- noon is entitled “Diverse Voices.” Se- can Indian Program for the National lected panelists and the audience will Museum of American History at the be invited to raise questions about Smithsonian Institution, will present the whether and to what extent diverse Seeger lecture at the 49th annual SEM points of view are being heard at our meeting in Tucson. Dr. Green, a noted annual meetings and in our Journal, and folklorist, writer, and filmmaker, is prob- whether the Society’s membership is as ably most familiar to SEM members as diverse as the cultures, societies, indi- the producer of the groundbreaking viduals, and groups we study. In addi- Smithsonian Folkways recorded collec- tion, I want us to ask such questions as, tions, “Heartbeat: Voices of First Na- what can SEM do, as an institution, to tions Women” (1995), and “Heartbeat make itself more welcoming to diverse II” (1998). But she has also published points of view? What can SEM members widely on aspects of American folklore, do (and what have they been doing) to material culture, foodways, Native develop a diverse pool of applicants for American material culture, performing graduate and undergraduate study and identity, and Native American represen- for jobs in and outside the academy? tations and identity, greatly contribut- Born in Dallas, Texas, on July 18, What can be done to develop hiring ing to our understanding of the history 1942, Green is of Oklahoma Cherokee philosophies and institutional cultures and creative achievements of Native and German Jewish heritage, and while that seek “diverse voices”? What is North Americans.
[Show full text]
Grand Challenges in Soft Matter Science: Prospects for Microgravity Research
NASA/CP-20205010493 Grand Challenges in Soft Matter Science: Prospects for Microgravity Research Paul Chaikin, Compiler New York University, New York City, New York Noel Clark University of Colorado Boulder, Boulder, Colorado Sidney Nagel University of Chicago, Chicago, Illinois March 2021 NASA STI Program . in Profi le Since its founding, NASA has been dedicated • CONTRACTOR REPORT. Scientifi c and to the advancement of aeronautics and space science. technical fi ndings by NASA-sponsored The NASA Scientifi c and Technical Information (STI) contractors and grantees. Program plays a key part in helping NASA maintain this important role. • CONFERENCE PUBLICATION. Collected papers from scientifi c and technical conferences, symposia, seminars, or other The NASA STI Program operates under the auspices meetings sponsored or co-sponsored by NASA. of the Agency Chief Information Offi cer. It collects, organizes, provides for archiving, and disseminates • SPECIAL PUBLICATION. Scientifi c, NASA’s STI. The NASA STI Program provides access technical, or historical information from to the NASA Technical Report Server—Registered NASA programs, projects, and missions, often (NTRS Reg) and NASA Technical Report Server— concerned with subjects having substantial Public (NTRS) thus providing one of the largest public interest. collections of aeronautical and space science STI in the world. Results are published in both non-NASA • TECHNICAL TRANSLATION. English- channels and by NASA in the NASA STI Report language translations of foreign scientifi c and Series, which includes the following report types: technical material pertinent to NASA’s mission. • TECHNICAL PUBLICATION. Reports of For more information about the NASA STI completed research or a major signifi cant phase program, see the following: of research that present the results of NASA programs and include extensive data or theoretical • Access the NASA STI program home page at analysis.
[Show full text]
Biographical Information: Arjun G. Yodh
BIOGRAPHICAL INFORMATION: ARJUN G. YODH See Group Website for more information: https://web.sas.upenn.edu/yodh-lab/ EDUCATION 1986 Ph.D., Harvard University, Division of Applied Sciences 1982 M.S., Harvard University, Division of Applied Sciences 1981 B.Sc., Cornell University, School of Applied and Engineering Physics POSITIONS HELD 1997- Professor of Physics and Astronomy, University of Pennsylvania 1997- Professor of Radiation Oncology, University of Pennsylvania 1993-97 Associate Professor of Physics, University of Pennsylvania 1988-93 Assistant Professor of Physics, University of Pennsylvania 1987-88 Postdoctoral Research Associate with Harry W. K. Tom, AT&T Bell Labs 1986-87 Postdoctoral Research Associate with Steven Chu, AT&T Bell Labs 1982-86 Research Assistant (RA) with Thomas W. Mossberg, Harvard University HONORS, APPOINTMENTS, FELLOWSHIPS, MEMBERSHIPS James M. Skinner Professor of Science, Endowed Chair, Univ. of Pennsylvania (2000- ) Director, PENN Laboratory for Research on Structure of Matter (LRSM) (2009-20) Director, NSF Materials Research Science & Engineering Center (MRSEC) (2009-20) Co-Director, NSF Partnership for Res. & Edu. in Materials (PREM), U Puerto Rico (2009-20) Elected Member at Large, Medical Physics Group (GMED), APS (2020-23) Elected Electorate Nominating Committee, AAAS (2017-20) Alexander von Humboldt Senior Research Award, Heinrich-Heine-Un. of Düsseldorf (2015-18) Raymond and Beverly Sackler Lecturer, Tel-Aviv University (2015-16) Visiting Professor, École Supérieure of Industrial Physics & Chemistry
[Show full text]
DEPARTMENT of PHYSICS COLLOQUIA Fall
DEPARTMENT OF PHYSICS COLLOQUIA Fall 1999 Schedule August 30 Randall D. Kamien - University of Pennsylvania Title: Liquid Crystalline Phases of DNA September 6 Sara A. Solla – Northwestern University Title: The Dynamics of Learning from Examples September 13 Anton Zeilinger - University of Vienna, Austria Title: Quantum Teleportation and the Nature of Information September 20 – The Thomas Gold Lecture Series Bohdan Paczynski – Princeton University Title: Gravitational Microlensing and the Search for Dark Matter September 27 Carlos Rovelli – University of Pittsburgh and Centre de Physique Theorique de Luminy, France Title: Non Perturbative Quantum Gravity October 4 Eric Siggia – Cornell University Title: Theory and the Yeast Genome October 11 – FALL BREAK October 18 Edward Blucher – University of Chicago Title: Investigating Difference between Matter and Antimatter October 25 Venky Narayanamurti – Harvard University Title: Condensed-Matter and Materials Physics: Basic Research for Tomorrow’s Technology November 1 – The Kieval Lecture Steve Vogel – Duke University Title: Locating Life’s Limits with Dimensionless Numbers November 8 Edward Kearns – Boston University Title: The Mysteries of Missing Neutrino’s: Latest Results from Super-K November 15 Paul Steinhardt – University of Pennsylvania Title: The Quintessential Universe November 22 Dan Ralph – Cornell University Title: Torques and Tunneling in Nano-Magnets November 29 William Phillips – NIST Title: Almost Absolute Zero: The Story of Laser Cooling and Trapping Spring 2000 Schedule January
[Show full text]
Quasicrystals: a Brief History of the Impossible
Rend. Fis. Acc. Lincei DOI 10.1007/s12210-012-0203-3 SI: XR DIFFRACTION Quasicrystals: a brief history of the impossible Paul J. Steinhardt Received: 25 July 2012 / Accepted: 27 August 2012 Ó Accademia Nazionale dei Lincei 2012 Abstract The 30-year history of quasicrystals is one in as a brief personal perspective rather than a formal history. which, time after time, the conventional scientific view Over 11,000 papers have been written on this subject by about what is possible has been proven wrong. First, other authors whose important contributions to the field quasicrystals were thought to be mathematically impossi- could not be included in these few pages. I strongly com- ble; then, physically impossible; then, impossible unless mend the reader to reviews and other reminiscences to synthesised in the laboratory under carefully controlled obtain a complete account. conditions. One by one, these strongly held views have been disproven, the last only recently as the result of the discovery of a natural quasicrystal found in a meteorite 1 Mathematically impossible dating back to the formation of the solar system. This paper is a brief personal perspective on this history of misun- When the concept of quasicrystals was first introduced in derstanding and discovery. 1984 (Levine and Steinhardt 1984), it met resistance because it appeared to contradict mathematical theorems Keywords Quasicrystals Á Icosahedral symmetry Á that had been proven over the last two centuries and that Diffraction Á Icosahedrite had been adopted as essential truths in crystallography and solid state physics. Solids were thought to come in one of two forms, ordered and disordered, where ordered meant This prećis is based on a presentation delivered at the periodic and disordered meant amorphous or glassy.
[Show full text]
Inaugural Salon, December 4Th, 2006 Moma/SEED Salon II, January 8Th
Inaugural Salon, December 4th, 2006 Roundtable discussion with all participants at Founder’s Room MoMA/SEED Salon II, January 8th, 2007, Bartos Theater Stefan Sagmeister, Sagmeister Inc. Benoit Mandelbrot Benjamin Aranda and Chris Lasch, Aranda/Lasch Niles Eldredge, American Museum of Natural History MoMA/SEED Salon III, February 6th, 2007, Bartos Theater C.S. Kiang, Chairman of Peking University Environment Fund Israel Bar-Joseph, The Jane and Otto Morningstar Professorial Chair in Physics, Institute’s Joseph H. and Belle R. Braun Center for Submicron Research Jonathan Harris, number 27 Peter Frankfurt, Imaginary Forces MoMA/SEED Salon IV, March 6th, 2007, Bartos Theater SCALE Sulan Kolatan, KOL/MAC Chuck Hoberman, Hoberman Associates Masamichi Udagawa, Antenna Design Jonah Lehrer, SEED magazine MoMA/SEED Salon V, April 4th, 2007, Bartos Theater VISUALIZATION Ben Fry, Processing open-source software Jason Kottke, weblog kottke.org Keith Schwab, Associate Professor of Physics, Physics, Cornell University Marianne Weems, The Builders Association MoMA/SEED Salon VI, April 26th 2007, Bartos Theater BEAUTY Paul J. Steinhardt, Albert Einstein Professor in Science at Princeton University Louise Neri, curator, Gagosian Gallery Dalton Conley, Professor of the Social Sciences and Chair of Sociology, New York University Felice Frankel, Envisioning Science program at Harvard University's Initiative in Innovative Computing (IIC) MoMA/Seed Salon VII, October 30th, 2007 PROCESS+BRAIN Liz Gould, Professor of Psychology at Princeton University Kevin
[Show full text]
DPOLY 2004 Booklet
DPOLY Short Course Rheology and Dynamics of Polymers & Complex Fluids Saturday March 20, 2004 - 8:00 am - 5:00 pm Sunday March 21, 2004 - 8:00 am - 5:00 pm You must pre-register for this course. There is no on-site registration. Course description: The ability of applied flow fields to perturb the equilibrium structure of polymers, colloids, self-assembled surfactants and other complex fluids leads to complex flow behavior that defies description by classical constitutive models of elastic solids or viscous liquids. Rheological (and complementary structural) characterization of such materials under flow provides a direct and informative probe of the molecular or meso-scale dynamics. Of equal importance, appreciation of the structure & rheology of complex fluids is of direct technological relevance in materials 2004 processing. This course will provides both an introduction to the foundations of this field, and a broad survey of its application to diverse areas of current interest. Who should attend: The course will be useful to scientists from academia or industry with broad interests in polymers, complex fluids or other soft materials. The instructors will assume a background of B.S. level training in physical science or engineering. If you a student, post doc, faculty member or scientist asking yourself the question: "What can Rheology do for me?", then this course is for you. Topics to be covered DPOLY The course will begin with a review of techniques of mechanical rheometry, and an overview of polymer viscoelasticity. Polymer solutions and melts will be discussed in detail, covering recent experimental and theoretical advances. Focus will then shift to more complex examples of polymeric & self assembled fluids, including liquid crystals, liquid crystalline polymers, block copolymers, surfactants, biopolymers, etc.
[Show full text]