21. Jerzy J. Langer 3rd International Conference on organic conductors and superconductors, sensors, NOE materials, molecular magnets, nanostructural materials, nanotechnology and molecular electronics. Srem, Poland. http://main.amu.edu.pl/~tme01/

th International Conference Towards Molecular Electronics, TME’03 23-28 June, 2003, Srem, Poland Central European Conference on Advanced Materials and Nanotechnolgy TME'03 (Internet Explorer preferred) Registration form Abstract form

22. First Principles Research Ab initio quantum chemistry and computational studies of superconductors. http://www.firstprinciples.com/

First Principles Research The primary focus of First Principles Research is to provide expertise in computational chemistry and physics to a variety of industries. Our resources are devoted to a mixture of consulting, contract research, and basic research. Projects First Principles Research has been involved with since its founding in 1994 include high temperature superconductivity, kinetic models for oil hydrocracking and gasoline reforming, physical and numerical models for medical devices and airborne/space-based radar. Details on this and other work can be found at this website. For additional information, please contact us directly as indicated below. Contact Information Telephone Postal address First Principles Research, Inc. 6327-C SW Capitol Hwy., PMB 250 Portland, OR 97239 Electronic mail General Information: jkp@firstprinciples.com [ Home ] News Background Projects Publications

23. Quantum Cavorite: Podkletnov Information about the Tampere gravity shielding effect by Podkletnov.Category Science Anomalies and Alternative Science...... physicists, Li and Torr, have written papers (2 papers before Podkletnov publishedhis results, and 1 after) that predicted rotating superconductors in an http://www.inetarena.com/~noetic/pls/gravity.html

Main Menu Home What's New? Experiments Articles ... Why "Quantum Cavorite?" NEW!!!!! Post questions to the public forum on Yahoogroups: http://www.yahoogroups.com/group/QuantumCavorite The First Podkletnov Experiment The First Woodward Experiment The Podkletnov Effect Experiments in 1992 in Finland seemed to show that the Earth's gravity could be shielded or modified with a superconductor. This experiment , by Eugene Podkletnov , at Finland's Tampere University of Technology, apparently displayed the reduction in the weight of objects placed above a levitating, rotating high Tc superconducting disk, exposed to high frequency magnetic fields. Did his device truely shield gravity, or was it a fluke, a mistake in experiment design? Podkletnov maintains that his experiments were thorough. However, he apparently did not share his findings nor the details of his apparatus with the university or his coworkers at the time, so he perhaps unwittingly, perhaps permanently, cast doubt on the accuracy of his claims. What do other physicists say? One physicist has tried to explain Podkletnov's surprising results;

24. Welcome To D-Wave Systems Inc. DWave Systems (dwavesys.com) is a portal to the state of the art in the design of quantum computers, operating systems, algorithms, hardware, superconductors, and quantum physics. http://www.dwavesys.com

Recent News Welcome to D-Wave Systems Inc. D-Wave Systems Inc. is a privately held corporation based in Vancouver, Canada. Our central mission is to commercialize superconducting quantum computational systems.

25. Making High-Temperature Superconductors Making HighTemperature superconductors. Copyright 1988, Colorado Futurescience,Inc. What follows the air. TESTING THE superconductors. http://www.webcom.com/cfsc/scpart1.html

Making High-Temperature Superconductors Colorado Futurescience, Inc. What follows are the instructions for making ceramic superconductors in a high school science laboratory. These were originally the instructions that were included in a Colorado Futurescience kit for superconductor fabrication. We no longer sell the fabrication kit, so we decided to put these instructions on the Web. We do, however, still sell other superconductivity kits. Since we're making this information available without charge, we can assume no liability for the safety or reliability of the procedure. This procedure was written for High School Science labs; but, of course, it can also be used at colleges and in other settings. Individuals unaffilated with any research laboratory or educational institution have also used this procedure successfully. Unaffiliated individuals, however, may have difficulty obtaining the required chemicals. None of the major suppliers of research chemicals will sell chemicals to individuals. Colorado Futurescience also no longer sells these chemicals. Some larger cities have science stores that do sell small quantities of these chemicals to individuals. Also, some re-sellers of scientific supplies, such as those listed in the classified ads in publications such as Popular Science will sell these chemicals to individuals. One option for the unaffiliated individual with a scientific background is to volunteer to assist a High School Science Department with this project. Many schools are in need of qualified volunteers to assist with science projects.

26. Nanoelectronics At The University Of Basel Mesoscopic Physics Group. Research is directed towards static and dynamic electrictransport properties of nanostructures of various kind including normal metals, superconductors, and organic conductors (nanotubes, DNA). http://www.unibas.ch/phys-meso/

This page contains frames. A Web browser that supports frames is needed to view this page.

27. Superconductors superconductors. High superconductivity in certain metallic oxides discoveredin mid 1980's. superconductors have many unusual electromagnetic properties http://www.physics.carleton.ca/courses/75.364/mp-2html/node1.html

Next: Properties of Type Up: No Title Previous: No Title Superconductors High superconductivity in certain metallic oxides discovered in mid 1980's. Believed to be as important as important as the transistor Superconductors have many unusual electromagnetic properties Once a current is produced in a superconducting ring at sufficiently low temperature the current persists with no measurable decay. The superconducting ring exhibits no electrical resistance to direct currents, no heating, no losses. Certain superconductors expel applied magnetic fields so the field is always zero inside the superconductor Cannot be explained classically The superconducting state is a special quantum condensation of electrons This quantum behavior has been verified through the observations as the quantization of magnetic flux produced by a superconducting ring. To understand superconductivity require to take into account the collective behavior of electrons and ions or so called many body effects Resistance comes from electrons scattered by lattice imperfections Interaction with vibrational mode of lattice vibration The lower the temp the lower the resistance but still expect some due to crystal imperfections But for some solids electrical resistance totally disappears at sufficiently low temperature the critical temperature Not all materials superconducting If the field is applied after the substance has been cooled below the magnetic flux is excluded from the superconductor Properties of Type I Superconductors Critical Temperature and Critical Magnetic Field Magnetic Properties of Type I Superconductors Critical Current in a Pb Wire ... Applications of Superconductivity Stephen Godfrey

28. MATERIALS DIAGNOSTICS PAGE Provides service to industry for ion implantation of metals, semiconductors, and superconductors http://www.albany.net/~md1/

MATERIALS DIAGNOSTICS Mail us for more information ACCELERATOR PICTURE PAGE SERVICES PAGE PROFILING PAGE IMPLANTATION PAGE TO REACH US BY PHONE : (518) 449 - 1744 TO FAX US : (518) 442 - 4486 E-MAIL US @ : MD1@albany.net DR. H BAKHRU, PRESIDENT MATERIALS DIAGNOSTICS P.O. BOX 22070 1400 WASHINGTON AVENUE ALBANY NEW YORK 12222 A LITTLE ABOUT US MATERIALS DIAGNOSTICS, the company providing service for the low energy (20 keV to 400 keV) and high energy (400 keV to 4.2 MeV) Ion Implantation of Metals, Semiconductors,and Superconductors working with four different Particle Accelerators. We accommodate small dimension to eight inch samples. We also perform nondestructive compositional analysis of thin films using RBS and PIXE techniques. Some of our other services include : Nuclear Reaction Analysis, Hydrogen profiling using N(p, alpha gamma) reaction, Carbon, Nitrogen, Sodium, Fluorine, and other elemental analysis, crystal structure using channeling, Micorbeam RBS, Microbeam PIXE; Elemental maps using microbeams, This page best viewed with

29. WileyEurope Superconductors superconductors (7), Listings 17, Sort listing by http://www.wileyeurope.com/cda/sec/0,,2834,00.html

30. Welcome To Microcoating Technologies Produces coating material for computer boards and chips, satellites, cell phones, fuel cells, superconductors, flat panel displays, building and automotive windows, food and beverage plastic containers, metal foils, pipe plating, vision ware, manufacturing equipment and turbine engines, located in Chamblee, Georgia. http://www.microcoating.com/

document.write( DayName + ", " + MonthName + " " +ThisDate ); Thin Films and Nano Products MicroCoating Technologies, Inc. (MCT) is an intellectual property company and a manufacturer of products with advanced thin film coatings and nanomaterials designed to enhance the performance of next generation products. Combustion Chemical Vapor Deposition (CCVD) , a proprietary open-atmosphere coating process, along with MCTs Nanomiser Device and NanoSpray SM Process are instrumental to the Company's thin films and nanopowders. RF Wireless Tunable Filters Phase Shifters Nanotechnology ... Embedded Passives The Company's motto, Building the Future Layer by Layer SM , reflects a commitment to providing clients and partners with thin films, nano products, and other advanced materials technologies to address market needs. Corporate Information About MCT Technology Nanomiser Device ... Contact Us

31. WileyEurope Copper Oxide Superconductors WileyEurope, Copper Oxide superconductors by CharlesP. Poole, Jr., Timir Datta, Horacio A. Farach. http://www.wileyeurope.com/cda/product/0,,0471623423,00.html

32. :: 2002 MRS Workshops - Superconductors :: International Workshop on Processing and Applications of superconductorsAugust 12, 2002 Park Vista Resort Hotel Gatlinburg, Tennessee, USA. http://www.mrs.org/meetings/workshops/2002/superconductor/

site search International Workshop on Processing and Applications of Superconductors August 1-2, 2002 Park Vista Resort Hotel Gatlinburg, Tennessee, USA Purpose and Description Major advances have been made in the last 14 years in high-temperature superconductor (HTS) research, resulting in increased use of HTS materials in commercial and precommercial applications. HTS conductors are expected to be useful for numerous electric power applications, including transmission cables, transformers, SMES, current limiters, motors, and generators, etc. High efficiency, high power density, and improved materials utilization are some of the benefits expected from HTS in this century. Much progress has been made using BSCCO silver sheathed wire and tape on processing and applications. Research on the YBCO based next generation conductors is now intensively carried out in the world. The focus of this workshop will bring the discussions between the international experts towards the development of long length YBCO coated conductors and applications of high temperature superconductors PROGRAM Registration Abstracts Submission DEADLINE: JUNE 28, 2002

33. Colorado Futurescience Good introductory material on superconductors, including instructions for Making superconductors in a High School Science Laboratory, and complete superconductor kits for science educators. http://www.webcom.com/cfsc/

and Futurescience, Inc.) Products and Services for Science Education since 1987. SUPERCONDUCTOR DEMONSTRATION KITS INFORMATION ON LIFE EXTENSION AND ANTI-AGING MEDICINE THE ACCORD PUBLISHING STORE and much more Superconductors Educational Kits including online manuals Background Information Making Superconductors THE ACCORD PUBLISHING STORE Calendars Science Kits Children's Books Toys ... Lots of Other Stuff Advanced Preventive Medicine and Life Extension Life Extension Manual Needle Phobia Page Under Development E-lab kits Tracks of Technology Superconductors. We make superconductor demonstration kits and accessory items for science education. Our superconductor products are available directly from Futurescience, Inc. The complete manuals for all of our superconductor kits are now online. THE ACCORD PUBLISHING STORE sells the complete line of calendars, science stuff, children's books, and much more from Accord Publishing. Futurescience compiles the material each year for the Easy Answer Science Calendar , published by Accord Publishing. For an abundance of information on the latest research into the possibilities of a longer, healthier life than most people ever thought possible, see Jerry Emanuelson's free comprehensive manual on the practical applications of scientific research into a

34. Previous Articles Similar pages superconductors Imitate LasersTitle and Authors. superconductors Imitate Lasers. Paola Barbara/University ofMaryland. superconductors can convert a dc voltage into an oscillating current. http://physics.about.com/library/weekly/aa111798.htm?rf=dp&COB=home

35. Superconductors Show Their Stripes superconductors Show Their Stripes. Like tigers and zebras, hightemperature superconductorsappear to be curious beasts, distinguished by their stripes. http://focus.aps.org/story/v9/st12

Previous Story Next Story January - June 2002 Archive Phys. Rev. Lett. (print issue of 4 March 2002) 27 February 2002 Title and Authors Superconductors Show Their Stripes K. Hermann/Fritz Haber Institute Supercrystal. One theory claims that "stripes" of electric charges allow the planes of copper (green) and oxygen (blue) in YBa Cu O to carry current without resistance at high temperatures. Now the stripes have been observed in this material. Like tigers and zebras, high-temperature superconductors appear to be curious beasts, distinguished by their stripes. Some physicists believe that electricity runs without resistance along lines, or "stripes," of electric charge in these materials. That controversial theory gets a big boost now that a team has finally observed these stripes in the most widely studied of the so-called cuprate superconductors, as reported in the 4 March print issue of PRL . The researchers' large crystal sample enabled them to detect new details in neutron scattering data that support the notion that you can't separate a cuprate superconductor from its stripes. The cuprate superconductors are something like multi-tiered dance halls for electric charges. They consist of parallel planes of copper and oxygen atoms. Within each plane the copper atoms arrange themselves in a square grid, with an oxygen atom sitting between each pair of neighboring coppers. Between the planes lie atoms of other elements, and some of these absorb electrons from the copper atoms, leaving positively charged "holes" behind. Researchers know that these holes pair up to waltz without resistance along the planes. However, they aren't sure how the like-charged holes manage to cling together.

36. Dept. Of Condensed Matter Peter Nordlander's group investigates nonequilibrium processes in mesoscopic systems and on surfaces focus on many-electron effects. Qimiao Si specializes in the theory of strongly correlated electron systems emphasis on non-Fermi liquid behavior. projects quantum dot, Kondo, nanoparticles, high temperature superconductors http://juktan.rice.edu

37. High Temperature Superconductors High Temperature superconductors – The Next Generation? Contents Top.Electron Pairing in HighTc superconductors. Essentially, the http://www.personal.psu.edu/users/k/j/kjk176/Supers.html

38. Home Page Of Ivan Sergienko Research interests include multiple phase transitions in piezoelectrics and superconductors. http://www.physics.mun.ca/~isergien/

Ivan A. Sergienko Room C-3029 Department of Physics and Physical Oceanography Memorial University of Newfoundland NL, A1B 3X7, Canada Ph. +1 (709) 737-8878 E-mail: isergien@physics.mun.ca http://www.physics.mun.ca/~isergien Postdoc, Memorial University of Newfoundland, 2002 - Ph. D., Rostov State University M. Sc., Rostov State Uiniversity, 1997 I work as a Postdoctoral Fellow for Prof. S. H. Curnoe My resarch is currently focusing on the first pyrochlore superconductor Cd Re O Publications. ... Ph. D. thesis stuff. Seminar (Nov. 8, 2002) talk slides. ``Ferroelectric Phase Transitions in Perovskites'' ( slides.tar.gz Photo gallery for friends American Physical Society journals: Physical Review B Physical Review Letters APS March 2003 Meeting Journal of Physical Society of Japan arXiv: find abs Queen Elizabeth II Library (restricted) Bilbao Crystallographic Server Local: The Telegram Weather for St. John's Search Tools: AltaVista Google Yahoo! Canada Updated Mar 11, 2003

39. PhysicsWeb - Lithium Joins The Superconductors Lithium joins the superconductors 14 October 2002. Related stories. Straindoubles superconductor temperatures. Metal superconductors reach new high. http://physicsweb.org/article/news/6/10/10

Advanced site search news January February March April May June July August September October November December Show summaries quick search Search the news archive. Previous News for October 2002 Next Lithium joins the superconductors 14 October 2002 Japanese physicists have shown that lithium becomes superconducting when it is subjected to pressures in excess of 30 gigapascals. Katsuya Shimizu of Osaka University and co-workers at Osaka and the University of Tokyo have shown that lithium loses all resistance to electric current at this pressure, which is equivalent to 300 000 atmospheres (K Shimizu et al. Nature 597). Researchers in the US have also observed superconductivity in dense lithium (V V Struzhkin et al. Science published on-line). Some 29 elements are superconductors under normal pressure conditions, and lithium brings to 23 the number that superconduct at higher pressures. In high-pressure experiments the sample is compressed between two diamond surfaces in a diamond anvil cell. However, lithium is highly reactive, which makes high-pressure experiments difficult. Shimizu and co-workers have now managed to compress a ribbon of highly pure lithium in such a cell. They observe superconductivity as a drop in electrical resistance, and also find that the superconducting transition temperature rises to 20 Kelvin at 48 gigapascals. Although this is the highest observed transition temperature of any element, it is a factor of four less than theoretical predictions. The team also points out that it has failed to observe the Meissner effect - the expulsion of a magnetic field from the sample. Observation of the Meissner effect is often considered a more reliable indication of superconductivity than a dramatic reduction in resistance.

40. PhysicsWeb - Explaining High-Tc Superconductors Explaining highTc superconductors Physics in Action December 1999. Thisis what gives superconductors their unusual properties. http://physicsweb.org/article/world/12/12/3

Advanced site search physics world January February March April May June July August September October November December Latest issue Subscribe to Physics World Media Information ... Editorial Staff quick search Search Physics World Previous Physics World December 1999 Next Explaining high-Tc superconductors Physics in Action: December 1999 Even a decade and a half after the discovery of high-temperature superconductivity in ceramic compounds containing copper-oxide planes, these materials continue to puzzle condensed-matter theorists. The challenge is not simply to find a reasonable formula that predicts the uniquely high values for the superconducting transition temperature in the cuprates. Rather, superconductivity is but one aspect of the unique and complex phase diagram exhibited by this class of materials. Depending on the temperature and the level of doping, the cuprates can be insulators, metals or superconductors. The non-superconducting or "normal" phase also exhibits unusual properties (see figure). c , of 36 K. Similar materials with higher transition temperatures soon followed, including yttrium barium copper oxide (YBCO), which has a T

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