Chip Industry’s Technical Paper Roundup: Jan 3


New technical papers added to Semiconductor Engineering’s library this week. [table id=72 /] If you have research papers you are trying to promote, we will review them to see if they are a good fit for our global audience. At a minimum, papers need to be well researched and documented, relevant to the semiconductor ecosystem, and free of marketing bias. There is no cost involved for us ... » read more

Graphene-Based Electronics (Georgia Tech)


A technical paper titled "An epitaxial graphene platform for zero-energy edge state nanoelectronics" was published by researchers at Georgia Tech, Tianjin University, CNRS, Synchrotron SOLEIL, National High Magnetic Field Laboratory and others. “Graphene’s power lies in its flat, two-dimensional structure that is held together by the strongest chemical bonds known,” said Walter de Heer... » read more

Manufacturing Bits: Aug. 3


World’s thinnest magnet Lawrence Berkeley National Laboratory, the University of California at Berkeley and others have developed what researchers say is the world’s thinnest magnet. The one-atom-thin, two-dimensional (2D) magnet could one day pave the way towards new spin electronics or spintronics memory devices and other technologies in the market. Spintronics uses the orientation of... » read more

Manufacturing Bits: April 5


Open access superconducting magnets The National High Magnetic Field Laboratory or MagLab has opened the world's strongest superconducting magnet to users. In the works for eight years, the 32 tesla (T) all-superconducting magnet enables scientists to conduct research for various applications, such as quantum matter experiments. The system is called the SCM-32 T. MagLab develops several ... » read more

Manufacturing Bits: April 6


Powerful electromagnets The National High Magnetic Field Laboratory (MagLab) has tested a new and powerful superconducting solenoid or electromagnet that operates at high currents. MagLab develops several different types of large and powerful magnets, which are used as scientific instruments. MagLab’s solenoid or electromagnet could one day be used to drive particle accelerators and compa... » read more

Manufacturing Bits: Aug. 14


Strange metals The National High Magnetic Field Laboratory (National MagLab) has unraveled the behavior in a new class of high-temperature superconductor (HTS) materials called cuprates. Cuprates are sometimes referred as a "strange" or "bad" metal. They don't conduct electricity well despite being a superconducting material. Superconductors are devices that have zero electrical resistance,... » read more

Manufacturing Bits: Dec. 19


Superconducting magnet record The National High Magnetic Field Laboratory (MagLab) has broken another world record for magnets. With a superconducting magnet, MagLab reached a magnetic field of 32 teslas. This is a third stronger than the previous record and more than 3,000 times stronger than a refrigerator magnet, according to MagLab. Tesla, or T, is the measurement of magnetic field ... » read more

Manufacturing Bits: Oct. 10


5/2 fractional states Using a powerful magnet, Columbia University has observed a quantum particle in a bilayer graphene material, an event referred to as a 5/2 fractional quantum state. The observation could bring the industry closer to quantum computing. More specifically, researchers from Columbia said that they have observed “an anomaly in condensed matter physics—the even-denominat... » read more

Manufacturing Bits: Aug. 29


Compact synchrotron EUV sources For some time, the industry has been exploring the development of next-generation power sources for extreme ultraviolet (EUV) lithography. ASML and Gigaphoton are separately developing EUV sources based on the more traditional and compact laser-produced-plasma (LPP) technology. Then, in R&D, others are exploring the development of futuristic EUV sources us... » read more

Manufacturing Bits: Aug. 1


Magnetic chips HRL Laboratories—an R&D venture between Boeing and General Motors—has been awarded a contract to develop a new class of magnetic integrated components. HRL has received the award from the Defense Advanced Research Project Agency (DARPA) under the Magnetic, Miniaturized, and Monolithically Integrated Components (M3IC) program. The goal is to develop new magnetic materials... » read more

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