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IEEE Spectrum
February 2005
Singh & Thakur |
Chip Making's Singular Future Beleaguered chip makers are counting on single-wafer manufacturing, which makes ICs on one wafer at a time, to cut costs and get chips to market faster.   |
Technology Research News
August 10, 2005
Eric Smalley |
Ice transforms chipmaking Spraying water vapor onto cold silicon could be a simple way to make computer chips. The key is etching nanoscale lines into the resulting ice to make microscopic computer circuits. The process is environmentally friendly to boot. |
Industrial Physicist
Feb/Mar 2003
Eric Lerner |
Briefs Hidden imaging data... Piggy-back chips... Synthetic ion pump... Strong, ductile copper |
IEEE Spectrum
March 2007
Mouli & Carriker |
Future Fab If a billion transistors on a postage-stamp-size chip impress you, consider the fabrication facilities that put them there. How software is helping Intel go nano -- and beyond. |
The Motley Fool
December 16, 2003 |
Implanter Implodes Ibis Technology's stock tanked after it announced that revenues would be lower for Q4. The company's reliance on one large customer for its semiconductor products is risky. |
IEEE Spectrum
August 2007
Stick et al. |
The Trap Technique In this first part of a two-part series, the authors discuss how today's computers are running out of room for classical physics to work and how working with the quantum nature of things instead of against it will open up vast new frontiers for computing. |
IEEE Spectrum
March 2011
Joseph Calamia |
Engineers Unveil Particle Accelerator on a Chip Zipping ions down a MEMS racetrack could lead to portable particle beams |
Military & Aerospace Electronics
February 2010
Chris Sanders |
3D IC Integration is Poised to Drive the Next Generation of Military Imaging Sensors As military and aerospace design engineers develop imaging systems for the wired battlefield of tomorrow, they face the challenge of providing high-resolution imaging arrays that are light, small, and cheap. |
IEEE Spectrum
March 2013
Joachim N. Burghartz |
Make Way for Flexible Silicon Chips We need them because thin, pliable organic semiconductors are too slow to serve in tomorrow's chips. Seamless integration of computing into everyday objects isn't quite here yet. |
Technology Research News
January 12, 2005 |
Silicon Surfaces Speed Circuits Researchers have devised a way to use the chemistry of silicon surfaces to make smaller chip features. |
Technology Research News
December 19, 2005 |
Quantum computing: qubits Quantum bits, or qubits, are the quantum equivalent of the transistors that make up today's computers. There are four established qubit candidates: ion traps, quantum dots, semiconductor impurities, and superconducting circuits. |
IEEE Spectrum
March 2006
J. R. Minkel |
Quantum Leap For Quantum Computing The most promising technology for constructing an ultrapowerful quantum computer is the ion trap, a nest of electrodes that holds ions in midair. Researchers have now built the first such ion-trap chips. |
Science News
November 16, 2002 |
From the November 12, 1932, issue First Welded Penstock Built in California... Electrified Particles in Air May Explain "Curative Values"... Lignin Made Artificially by Heating Cellulose... |
Chemistry World
May 2, 2007
Richard Van Noorden |
Ionic Liquids' Etch-A-Sketch Surprise UK chemists have discovered how to draw and erase pictures on the surfaces of ionic liquids. |
Military & Aerospace Electronics
May 2007 |
Silicon Wafer Shipments Experience Growth for the Fifth Consecutive Year Worldwide silicon wafer area shipments increased by 20 percent in 2006 when compared to 2005 area shipments according to the SEMI Silicon Manufacturers Group (SMG). |
PC Magazine
March 14, 2007
Dylan Tweney |
What's Inside Your Laptop? We reveal the components inside a typical notebook PC and explain where they come from. |
Technology Research News
January 29, 2003
Kimberly Patch |
Tiny hole guides atoms against tide Researchers in Poland have made a synthetic device that uses an electrical field and an extremely small, conical pore in a thin film of material to coax potassium ions through the artificial membrane against their electrochemical potential. |
