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Debris Mitigation in Laser Produced Plasmas Using Three-Dimensional Manipulation of Magnetic Topology
Princeton Docket # 20-3704
Moore's law dictates that computer chips become ever smaller. The devices that fabricate these chips are facing constraints governed by fundamental physics. In order to achieve small chip size, the next generation...
Published: 3/1/2023
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Inventor(s): Ahmed Diallo, Christopher Smiet, Ben Israeli, Marien Simeni Simeni
Keywords(s):
Category(s): Materials, Quantum Computing and Electrical Engineering
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A rocket thruster that could take humans to Mars and beyond
Docket: 21-3746-1
A new type of rocket thruster propels a spacecraft by taking advantage of the physical mechanism that accelerates solar flares. The thruster would apply magnetic fields to force particles of electrically charged gas, or plasma, to shoot out the back of a rocket at high velocity,...
Published: 3/1/2023
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Inventor(s): Fatima Ebrahimi
Keywords(s):
Category(s): Energy and CleanTech, Quantum Computing and Electrical Engineering, Mechanical Engineering and Robotics
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Princeton Docket # 17-3317-1Researchers at Princeton Plasma Physics Laboratory, Princeton University, have invented a plasma microphone. The device uses plasma, an electrically conducting gas created by applying a voltage between two electrodes, to transduce acoustic waves to electronic signals. As a sound wave propagates through plasma, the pressure...
Published: 3/1/2023
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Inventor(s): Johan Carlsson
Keywords(s):
Category(s): Mechanical Engineering and Robotics, Quantum Computing and Electrical Engineering
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Princeton Docket # 17-3296, 17-3311, 17-3333Current laser systems are inherently brilliance-limited by the ability of the internals to resist damage by the laser. To overcome this thermal threshold, researchers at the Princeton Plasma Physics Laboratory have invented techniques to improve the current laser amplifiers based on Raman instability in plasmas....
Published: 3/1/2023
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Inventor(s): Kenan Qu, Nathaniel Fisch
Keywords(s):
Category(s): Quantum Computing and Electrical Engineering
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Researchers at Princeton University have developed a novel high
sensitivity magnetometer having the ability to detect and measure very low
magnetic field intensities. The device relies on polarizing alkali
metal vapor, and probing the state of magnetization of the polarized metal atoms
to measure characteristics of a magnetic field originating...
Published: 3/1/2023
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Inventor(s): Michael Romalis, Karen Sauer, Igor Savukov, Scott Seltzer
Keywords(s):
Category(s): Medical Devices/Diagnostics, Quantum Computing and Electrical Engineering
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