CITP Fellow: Postdoctoral Research Associate, Visiting Professional, or Microsoft Visiting Research Scholar/Visiting Professor - Center for Information Technology Policy, Princeton University - Princeton, NJ
Princeton, NJ, United States
Communications of the ACM
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Documentation Academy Aims to Empower Open Source Newcomers
Canonical's Open Documentation Academy aims to help newcomers participate in the open source community, offering mentorship and…
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Electronics You Can Wrap Around Your Finger
Researchers from South Korea have taken a new step toward more bendable devices by manufacturing a thin film that keeps its useful electric and magnetic properties...
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A Qubit Candidate Shines Brighter
Precisely placing imperfections called "nitrogen vacancy centers" within nano-sized diamond structures can boost their fluorescence, a key step toward using the...
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Nanoscale Resistors For Quantum Devices
Researchers from the London Centre for Nanotechnology have made new thin-film chromium oxide resistors that could speed the development of quantum devices for computing...
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Space: The Final Frontier in Silicon Chemistry
Scientists from the University of Tokyo have determined the unique electromagnetic emission spectrums of two new, highly-reactive silicon compounds, which will...
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Future Flexible Electronics Based on Carbon Nanotubes
Researchers from the University of Texas at Austin and Northwestern University have demonstrated a new method to improve the reliability and performance of transistors...
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The Future Face of Molecular Electronics
Molecular electronics could enable the construction of tiny circuits in which individual molecules take on the roles currently played by wires, resistors, and...
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Making Artificial Membranes on Silicon
Artificial membranes mimicking those found in living organisms have been developed by scientists in Chile through a "dry" process, marking the first time an artificial...
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Diamond Defect Clears Path to Better Quantum Computers
Planting imperfections called "NV centers" at specific spots within a diamond lattice could advance quantum computing and atomic-scale measurement.
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Cell Gives Multi-Bit 'spin' to Mram Storage
A France-U.S. research team working with MRAM technology has developed a multi-bit storage cell that may rival flash memory storage.
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Thermoelectric Material Converts Heat to Electricity with Greater Efficiency
A new study shows how porous substances can act as thermoelectric materials, pointing the way for using such materials in thermoelectric devices of the future...
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ltra-Thin Wires For Quantum Computing
Researchers at the Joint Quantum Institute at the University of Maryland have found a way to fabricate ultrahigh transmission optical nanofibers, a potential component...
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Just Add Water
Using only a drop of water, scientists from the University of Twente have folded flat sheets of silicon nitride into cubes, pyramids, and half soccer-ball-shaped...
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Device Turns Flat Surface Into Spherical Antenna
By depositing an array of tiny, metallic, U-shaped structures onto a dielectric material, a team of researchers in China has created a new artificial surface...
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Spintronics-Based Technology Could Enable 'Normally Off' Computers
Spintronics-based memory technology may replace volatile memory and enable extremely energy-efficient, hand-cranked or solar-powered next-generation electronic...
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How Twitter Shapes Public Opinion
Dominant viewpoints emerge quickly on Twitter and, once stabilized, become difficult to change, according to new study.
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Bats Inspire 'micro Air Vehicle' Designs
A Virginia Tech study of the inflight movement off fruit bats' wings may be applicable to the design of small flying vehicles.
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Graphene: Growing Giants
A research team at the U.S. National Institute of Standards and Technology may help bring graphene's promise closer to reality.
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Quantum Conductors Benefit from Growth on Smooth Foundations
Researchers in the United States and China have teamed up to develop a speedway for future devices, an exotic type of electrical conductor called a topological...
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Densest Array of Carbon Nanotubes Grown to Date
A team from Cambridge University has devised a simple technique to increase the density of nanotube forests grown on conductive supports. The high density nanotubes...
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The '50-50' Chip: Memory Device of the Future?
A new electronic alloy consisting of 50 aluminum atoms bound to 50 atoms of antimony may be promising for building next-generation "phase-change" memory devices...
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Assistant Professor (Quantum Computing) - University of Hawai'i at Mãnoa (UHM), Department of Electrical and Computer Engineering - Honolulu, HI
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COMPUTER SCIENCE JOINT TENURE-TRACK FACULTY POSITION - The Cooper Union for the Advancement of Science and Art - New York, NY
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Open-Rank Faculty-Thinking Machines Endowed Chair Position - Florida State University, Department of Computer Science - Tallahassee, FL
Tallahassee, FL, United States