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         Condensed Matter:     more books (100)
  1. Condensed Matter in a Nutshell by Gerald D. Mahan, 2010-10-24
  2. A Quantum Approach to Condensed Matter Physics by Philip L. Taylor, Olle Heinonen, 2002-03-18
  3. Experimental Techniques In Condensed Matter Physics At Low Temperatures (Advanced Books Classics) by Robert C. Richardson, Eric N. Smith, 1998-03-31
  4. Topology of Gauge Fields and Condensed Matter by M. Monastyrsky, 1993-05-31
  5. Statistical Physics: Including Applications to Condensed Matter by Claudine Hermann, 2010-09-30
  6. Understanding Soft Condensed Matter Via Modeling and Computation (Series in Soft Condensed Matter)
  7. Soft Matter Physics: An Introduction (Partially Ordered Systems) by Maurice Kleman, Oleg D. Laverntovich, 2010-11-02
  8. Quantum Field Theory in Condensed Matter Physics (Theoretical and Mathematical Physics) by Naoto Nagaosa, 2010-11-02
  9. Condensed Matter Physics (Dover Books on Physics) by A. Isihara, 2007-06-05
  10. Neutron Scattering in Condensed Matter Physics (Neutron Techniques and Applications) (Series on Neutron Techniques and Applications) by Albert Furrer, Joel Mesot, et all 2009-05-22
  11. Magnetic Anisotropies in Nanostructured Matter (Condensed Matter Physics) by Peter Weinberger, 2008-12-17
  12. Geometry in Condensed Matter Physics (Directions in Condensed Matter Physics)
  13. The Language of Shape: The Role of Curvature in Condensed Matter: Physics, Chemistry and Biology by S. Hyde, Z. Blum, et all 1996-12-03
  14. Field Theories of Condensed Matter Systems by Edwardo Fradkin, 2007-01-01

21. Experimental Soft Condensed Matter Group
The group of David A. Weitz works on the physics of soft condensed matter, materials which are easily deformable by external stresses, electric or magnetic fields, or even by thermal fluctuations.
http://www.deas.harvard.edu/projects/weitzlab/
Current Cool Image
Squishy Physics Seminar Schedule
We study the physics of soft condensed matter, materials which are easily deformable by external stresses, electric or magnetic fields, or even by thermal fluctuations. These materials typically possess structures which are much larger than atomic or molecular scales; the structure and dynamics at the mesoscopic scales determine macroscopic physical properties. The goal of our research is to probe and understand this relationship. We study both synthetic and biological materials; our interests extend from fundamental physics to technological applications, from basic materials questions to specific biological problems. The techniques we use include light scattering, optical microscopy, rheology, and sheer brain power We sponsor an informal seminar every Wednesday the squishy physics and pizza night. To learn more and check the schedule of speakers, check out our "Squishy Physics Talks" webpage On our "extras" page, we have listed the various instruments we use; we encourage people who have an interest in using these facilities to contact us to schedule experiments. In addition, there are links to tutorials we have written about our techniques.

22. Condensed Matter Physics At TAMU
Condensed Matter. Condensed matter physics is one of the most diverse areas of physics, with many practical applications exemplified by those in electronics microprocessors
http://physics.tamu.edu/research/list-condensed.html
DEPARTMENT ACADEMICS RESEARCH PEOPLE ...
Quantum Optics

Institutes
Mitchell Institute

Cyclotron Inst.
Condensed Matter
G. Agnolet I. F. Lyuksyutov D. G. Naugle Igor Roshchin ... W. Wu ) and nine theorists ( A. Abanov R. E. Allen A. Belyanin A. Finkelstein ... J. Sinova ). These faculty lead individual research groups, and are also involved in a number of collaborative projects. Additional condensed matter and materials-related research is described under the Applied Physics Major research equipment includes: A pulsed laser deposition facility, superconducting solenoids ranging to 140 kG, four dilution refrigerators for studies down to 0.003K, SQUID and extraction magnetometers, a CTI 1400 helium liquefier, clean high-vacuum thin-film evaporation facility, a surface analysis system (UPS/XPS, SIMS, ISS), a class 100 clean room facility, electron beam lithography capabilities for patterning, UHV scanning tunneling microscope (see image ), atomic force microscopy, magnetic force microscopy, and a 9 T solid-state NMR facility. Prof.

23. Condensed Matter
Joint Quantum Institute NIST/UMD Condensed matter (CM) physics is perhaps most famous as the field that produced the transistor sixty years ago.
http://www.jqi.umd.edu/research/condensed-matter.html
var rokboxPath = '/plugins/system/rokbox/'; Joint Quantum Institute
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    Condensed Matter
    Condensed matter (CM) physics is perhaps most famous as the field that produced the transistor sixty years ago. Today, the behavior of electrons in various kinds of semiconductors remains an intensely active research area at JQI and elsewhere. CM deals with the properties of large aggregations of atoms or molecules, including their magnetic and electrical characteristics, and the ways in which the quantum properties of atoms influence those of their neighbors and of the material as a whole.
    CM investigations are responsible for our knowledge of the "super" properties of matter in unusual states, such as superconductivity (absence of electrical resistance) and superfluidity (absence of viscosity or liquid friction), both of which are fundamentally quantum phenomena. Indeed, various arrangements of superconducting circuits can be employed to hold individual units of quantum information called quantum bits - or qubits for short - and JQI researchers are exploring those possibilities.
    Another traditional CM subject involves the study and manipulation of atoms in various sorts of orderly geometrical arrangements. In a crystal, such as the silicon materials used to make microchips or the layered oxide arrays of superconductors, component atoms align themselves to form regular, repeating, three-dimensional patterns with consistent spacing. Even seemingly minor changes in the pattern can have huge effects on the material's chemical and electrical properties. But those changes and properties are hard to examine in bulk matter.

24. The Soft Condensed Matter Theory Group
Research on theoretical models and computer simulations of soft condensed matter systems, focusing on the connections between molecular and macroscopic behavior.
http://ising.phys.cwru.edu/
of Professor Philip Taylor
Group Photo, Summer 2002 Nanoscopic Liquid Crystal Droplet A molecule in soft condensed matter will move a significant distance when a comparatively weak force is applied. Examples of this kind of substance include polymers and liquid crystals. We build theoretical models and computer simulations of soft condensed matter systems, focusing on the connections between molecular and macroscopic behavior. Website designed by Sarah Mullet Department of Physics Case Western Reserve University

25. APS/Division Of Condensed Matter Physics
The division of the APS dedicated to condensed matter physics. Activities include the award of fellowships and prizes, and the publication of a newsletter for the community.
http://dcmp.bc.edu/
Sunday, October 31, 2010

26. Condensed Matter News - Physics News, Physic Materials News, Physics, Materials
PhysOrg.com provides the latest news on Physics, Materials, Science and Technology
http://www.physorg.com/physics-news/materials/
Science and technology news
Condensed Matter news
New equation could advance research in solar cell materials
Physics Condensed Matter (PhysOrg.com) A groundbreaking new equation developed in part by researchers at the University of Michigan could do for organic semiconductors what the Shockley ideal diode equation did for inorganic semiconductors: ...
Batteries smaller than a grain of salt
Physics Condensed Matter Lithium-ion batteries have become ubiquitous in today's consumer electronics powering our laptops, phones, and iPods. Research funded by DARPA is pushing the limits of this technology and trying to create some of the tiniest ...
Water's choice: A tale of two numbers and the order they predict
Physics Condensed Matter (PhysOrg.com) Well-ordered structure or chaotic jumble? That's the choice when water is mixed with a salt and cooled down. Now, thanks to a rule discovered by scientists at Pacific Northwest National Laboratory ...

27. Soft Matter - Wikipedia, The Free Encyclopedia
Soft matter or Soft condensed matter is a subfield of condensed matter comprising a variety of physical states that are easily deformed by thermal stresses or thermal fluctuations.
http://en.wikipedia.org/wiki/Soft_matter
Soft matter
From Wikipedia, the free encyclopedia Jump to: navigation search Soft matter or Soft shameemed matter is a subfield of condensed matter comprising a variety of physical states that are easily deformed by thermal stresses or thermal fluctuations. They include liquids colloids polymers foams ... granular materials , and a number of biological materials. These materials share an important common feature in that predominant physical behaviors occur at an energy scale comparable with room temperature thermal energy . At these temperatures, quantum aspects are generally unimportant. Pierre-Gilles de Gennes , who has been called the "founding father of soft matter," received the Nobel Prize in physics in 1991 for discovering that the order parameter from simple thermodynamic systems can be applied to the more complex cases found in soft matter, in particular, to the behaviors of liquid crystals and polymers.
Contents
edit Distinctive physics
Interesting behaviors arise from soft matter in ways that cannot be predicted, or are difficult to predict, directly from its atomic or molecular consituents. This is often because soft matter self-organizes into mesoscopic physical structures that are much larger than the microscopic scale (the arrangement of atoms and molecules ), and yet are much smaller than the macroscopic (overall) scale of the material. The properties and interactions of these mesoscopic structures may determine the macroscopic behavior of the material. For example, the

28. Utrecht Soft Condensed Matter Group
Research is focused on the quantitative 3D real-space analysis and manipulation of colloidal structures and processes.
http://www1.phys.uu.nl/scm/
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29. Condensed Matter Physics: Definition From Answers.com
The branch of physics concerned with the study of very large numbers of strongly interacting particles, including the study of the solid and liquid states, dense plasmas
http://www.answers.com/topic/condensed-matter-physics

30. Condensed Matter Physics Jobs - Browse Keywords | Juju Job Search
Browse condensed matter physics jobs from 1,000s of job boards and employer web sites in one place. Juju makes your condensed matter physics job search faster and more
http://www.job-search-engine.com/keyword/condensed-matter-physics/

31. Cornell Laboratory Of Atomic And Solid State Physics
Research is focused on nanostructure, low-temperature, x-ray and soft condensed matter physics.
http://www.lassp.cornell.edu/research/experimental-condensed-matter-physics/
Skip to main content Cornell University Cornell Laboratory of Atomic and Solid State Physics Cornell Laboratory of Atomic and Solid State Physics SEARCH CORNELL: Pages People more options
Experimental Condensed Matter Physics
Condensed-matter physics concerns atoms in close proximity to one another and interacting strongly, as in the liquid and solid states. Collective and cooperative phenomena that result from these interactions can produce a variety of unusual physical properties as represented by the superfluid phases of 3He or high-temperature superconductivity.  Research areas of particular strength at Cornell include nanostructure physics, low-temperature physics, x-ray physics, and soft condensed matter physics. Nanostructure Physics
X-Ray Synchrotron Studies
Soft Condensed Matter Physics
Spotlight
read more Knowledge Town

32. Condensed Matter And Biological Physics
Condensed Matter Physics is the science of connecting atomicscale physics to the properties of everyday things. When you put a lot of atoms together you can get strange, wonderful
http://www.phy.syr.edu/CM_we_new/CMBPIndex.htm
Condensed Matter
Theoretical Condensed Matter

Experimental Condensed Matter

Medical Physics
Condensed Matter Physics is the science of connecting atomic-scale physics to the properties of everyday things. When you put a lot of atoms together you can get strange, wonderful and sometimes useful new kinds of behavior: superconductivity, magnetism, rubber elasticity, superfluidity. One of the great surprises about matter is that as it becomes more complex, it develops new, often unexpected properties. The rigid crystallinity of a snowflake, the levitation of superconductors, the formation and stability of cells in organisms, are each examples of properties that emerge from correlations amongst the basic building blocks of matter. The understanding of such "correlated matter'' has strong bearing on the development of new materials, but it also continues to shed light on fundamental physics, and is a topic of great current interest in condensed matter physics.
Condensed matter research at Syracuse spans both "hard" and "soft" condensed matter physics. "Hard" matter refers to matter governed by atomic forces and quantum mechanics. It is generally not biological, and involves crystals, glasses, metals, semiconductors and oxides. "Soft" matter refers to the myriad varieties of matter that form on the macroscopic scale, often from biological, or organic molecules. Here the large-scale physics, though collective, does not involve quantum mechanics, and the materials of interest are literally "softer".

33. Jorge Quintanilla - School Of Physical Sciences - University Of Kent
Frequently asked questions on Condensed Matter Physics, with a page where articles can be retrieved from various journals by typing their volume and page number.
http://www.cond-mat.org/

34. Condensed Matter Concepts
The 14 Bravais lattices
http://hyperphysics.phy-astr.gsu.edu/hbase/solcon.html

35. Carsten Raas: Homepage
Physicist in the condensed matter theory group at the Saarland University (Saarbr cken/Germany).
http://www.raas.de
Homepage of
Carsten Raas contact
Dr. Carsten Raas
Theoretische Physik I

Dortmund
contact adress, phone, fax,
email, www, picture menu contact p ublications t hesis ... inks www.raas.de/
last update: 2008-10-13
Mon Oct 13 00:00:00 CET 2008
address Dr. Carsten Raas
Theoretische Physik I
44221 Dortmund
Germany delivery address Dr. Carsten Raas Theoretische Physik I Otto-Hahn-Str. 4 44227 Dortmund Germany phone fax building P (physics) room P2-O2-425 (second floor) mail carsten.raas tu-dortmund.de private mail carsten raas.de homepage http://www.raas.de/ ResearcherID C-8465-2009

36. Brookhaven Condensed Matter Physics
Brookhaven Condensed Matter Physics . Condensed matter physicists study the properties of bulk matter—solids and liquids—as well as the properties exhibited at surfaces and
http://www.bnl.gov/physics/overview/condensedMatter.asp
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Physics Dept. Home BNL Physics Timeline Physics History home BNL Physics in the 1950s BNL Physics in the 1960s BNL Physics in the 1970s ... BNL Physics in the 2000s Current Research Areas Nuclear Physics High-Energy Physics Condensed Matter Soft Condensed Matter ... Into the Future
Brookhaven Condensed Matter Physics
Condensed matter physicists study the properties of bulk mattersolids and liquidsas well as the properties exhibited at surfaces and interfaces, with a view to obtaining a fundamental understanding of the unusual properties that materials can exhibit. These problems are some of the most challenging in physics today, but have the huge pay-off in that such an understanding may ultimately lead to improved materials for use in applications as diverse as computing, memory storage, electric motors, and energy storage and transport. At Brookhaven Lab, this work includes both experimental and theoretical studies. Much of the experimental work carried out today uses the National Synchrotron Light Source (NSLS, shown at right)one of the premiere synchrotron light sources of the last two decades. Commissioned in the 1980s, the NSLS is host to more than 2,200 users per year and produces copious amounts of light, from the infrared to the ultraviolet to the x-ray. By using this light as a probe, scientists can learn about the arrangement of the atoms and electrons in the materials and how they behave under various conditions. Among other projects, BNL scientists have played leading roles in the development and application of resonant and inelastic x-ray scattering techniques to the study of magnetic and other materials, have pioneered the use of photoemission techniques (based on the photoelectric effect that Einstein first understood 100 years ago) for looking at electronic and magnetic materials, and have carried out some of the seminal experiments to understand the atomic and magnetic structure at surfaces.

37. KDL Home Page
Condensed matter physicist and materials scientist, specialist in synchrotron X-ray and neutron diffraction
http://liss.freeshell.org/KDL/
Klaus-Dieter Li
I am a professional Physicist
experienced in Neutron- and
Synchrotron X-Ray
diffraction analysis.
Publication List
Materials Australia Interview
Doctoral Thesis
Modern Diffraction Methods Applied to Thermo Mechanical Processes In Materials Science Last modified: 10. June 2007 Author: Klaus-Dieter Li http:/kdliss.de/
http://mirror.kdliss.de/

38. Condensed Matter | Define Condensed Matter At Dictionary.com
World English Dictionary condensed matter — n physics a. crystalline and amorphous solids and liquids, including liquid crystals, glasses, polymers, and gels b. ( as
http://dictionary.reference.com/browse/Condensed Matter

39. Jens Koch
Postdoctoral Associate at Yale University. Working on condensed matter theory.
http://pantheon.yale.edu/~jk692
This website has moved to Northwestern University and you will be redirected in a few seconds. For reference, the new URL is http://groups.physics.northwestern.edu/koch

40. Research In Condensed Matter Physics
Condensed matter physics includes the study of solids (solid state physics) as well as liquids. Nationally, condensed matter physics is the largest and most active area of
http://www.physics.byu.edu/Research/condensed/

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