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Detecting Tiny Twists With A Nanomachine
Detecting Tiny Twists With A Nanomachine
Detecting Tiny Twists With A Nanomachine
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Scientists have developed a nanoscale spin-torsion oscillator that can measure miniscule amounts of twisting or torque in a metallic nanowire. The device can be used to uncover spin-dependent fundamental forces in particle physics and have applications in spintronics, chemistry, biology and fundamental physics.
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Other Articles:
| • | Dielectric materials: Gels excel |
| Printing electronic circuits will usher in a new era in electronics. With ion gel dielectrics, unprecedented transistor performance and speeds at low voltage can be demonstrated. | |
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| • | Accelr8 Announces Study Results With Rapid ESBL Test For Broad Resistance In Gram-Negative Pathogens |
| Accelr8 Technology Corporation (Amex: AXK) announced study results today that were presented at the joint sessions of the 48th Annual Interscience Conference on Antimicrobial Agents and Chemotherapy (ICAAC) and the Infectious Diseases Society of America (IDSA), October 25-29 in Washington, DC. | |
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| • | Identify Animals and Small Items with GAO Tek’s LF GLASS RFID TAG |
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Toronto, Canada - GAO Tek Inc. (www.GAOTek.com) now carries a well performing, low frequency (LF) Glass RFID Tag (GAO 111001). This tag is an ideal choice for tracking animals and or small objects. The LF Glass RFID Tag is contactless and read only operating in the 125 ± 6kHz (low frequency) with a capacity of 256 bits. The housing is highly durable as it is waterproof and dustproof makes it useful for a range of applications from implanting into pets for identification tags to laundry management. The Glass RFID Tag is amply insensitivity to read interference caused by liquids and metals and is resistant to immersion in salt water, alcohol, oil, 10% HCL, and ammonia. GAO Tek’s Glass RFID Tag features robust easy-to-install body. Generally, the tag is injected into an animal via a syringe, where it has a read-range of 2-3cm (1 to1.5 in). This LF Glass RFID Tag can be pre-programmed with specific IDs based on the customers’ requirements. Once in place in a system, this RFID tag is reputed to be near maintenance free, and can last for many years making it extremely cost effective. Specifications: Data Coding Type Manchester, Biphase, PSK Common Usage Animal identification, small parts identification, medical parts Multi-Detection Yes Size Diameter: 2.12mm, Length – 12.0mm Material BIO Glass 8625 Color Transparent Compliance ISO 11784 ISO 11785, EM4102, EPC Regulatory Specifications AMA 1234, EU3456 Weight 95mg Compliance EM4100 or other compatible tags Operating Specifications Shock– 200g, 2 axes (IEC 68-2-27) Vibration– 10G, 10Hz-2000Hz, 2 axes (IEC 68-2-6) Temperature: storage at - 40°C to 90°C, Operating at 0°C to 50°C For more information please contact sales@GAOTek.com, or visit (http://www.gaotek.com/index.php?main_page=product_info&products_id=634) About GAO Tek Inc. GAO Tek Inc. is a leading provider of test and measurement equipment, embedded development tools, telecommunication testers, electronic measurement instruments, video surveillance, alarm and other electronic products that serve the needs of electronic professionals internationally. For more information please visit http://www.GAOTek.com. For any media queries: Director of Marketing, 416-292-0038 ext 228 marketing@GAOTek.com |
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| • | Cepheid Molecular Diagnostic Test for MRSA and S. aureus Categorized 'Moderate Complexity' by FDA |
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| • | Parasites And Global Change: Past Patterns, Future Projections |
| Throughout history, environmental disturbances and global climate change have strongly influenced how humans are affected by parasites, according to one parasitologist. | |
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| • | Dr. Eric Isaacs, Director, Center for Nanoscale Materials, Argonne National Laboratory, and Professor of Physics, James Franck Institute, University of Chicago, 8-9-07 |
| Nanotechnology, x-ray microscopy, solar energy, nanophotonics, nanoscopic battery. Dr. Eric Isaacs has been a developer of modern synchrotron-based x-ray scattering techniques including inelastic x-ray scattering and a hard x-ray nano-probe. Research interests include novel electronic and magnetic materials with a particular focus on creating images of new phenomena in reciprocal and real space at the nanoscale. | |
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ScienceDaily: Matter & Energy News
By Nature Publishing Group - © 2008 Nature Publishing Group - version: v1.5 build A
By Nature Publishing Group - © 2008 Nature Publishing Group - version: v1.5 build A