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LiDAR (Light Detection and Ranging) systems measure distances and velocities with laser pulses and can also detect concentrations of trace gases and aerosols in the atmosphere.
Yen Jie Lee and colleagues developed a new analysis technique to isolate the response of quark–gluon plasma to a single quark and plan to apply it to larger data sets to measure wake extent and dissipation times.
The quantum experiment is designed to examine laser-cooled atoms at near-absolute-zero temperatures in microgravity to measure parameters key to atom-based quantum technology.
The Dark Energy Survey was designed to measure both the expansion history and the growth of structure by surveying hundreds of millions of galaxies and thousands of supernovae.
The South Pole Telescope was built to map about a tenth of the sky and measure galaxy clusters as a probe of dark energy, motivating a paired optical survey that grew into the Dark Energy Survey.
The BepiColombo Laser Altimeter (BELA), designed and built in part at the Physics Institute of the University of Bern, will operate from an orbit roughly 1,000 kilometers above Mercury's surface to measure elevations with about 10 centimeter precision.
LISA will use laser beams transmitted between satellites to measure displacements between reference masses with a precision smaller than the diameter of an atom.
The research team uses motion capture systems and wearable sensors to record joint movements and measure neural drive to muscles.
The University of Bern contributed the ion optical system for STROFIO, a NASA mass spectrometer on BepiColombo that will measure the composition of Mercury's extremely thin atmosphere.
Nitrogenase produces characteristic patterns in nitrogen isotopes that geobiologists measure to infer past biological nitrogen fixation.
The Twinspector constellation will be designed to measure the height of 1.1 million trees with approximately one-meter accuracy in less than one second.
Partners view the project as a measure to strengthen East Tennessee’s position as a hub for nuclear and fusion innovation by building on regional investments in fusion materials research, advanced manufacturing, and nuclear engineering education.
Researchers used a self-developed laboratory spectrometer to measure the radio emission frequencies of 2,5-cyclohexadiene-1-thione with precision exceeding seven significant digits to establish a unique spectral fingerprint.
SKY Perfect JSAT will use three 13.5-meter antenna facilities to receive radio signals from Orion, measure frequency transitions (Doppler shifts) with high precision, and provide the acquired tracking data to NASA to support mission safety.
Engineers combined computational fluid dynamics analysis with physical wind tunnel testing to measure forces, moments, and flow interactions during STARLAUNCH 1 release from the carrier aircraft.
LISTER will measure the Moon’s interior heat flow by drilling beneath the lunar surface, pausing at intervals to measure temperature changes and subsurface thermal conductivity.
The intrinsic uncertainty in time implied by the collapse models imposes a fundamental, extremely small limit on how precisely any clock can measure time.
LISA will transmit laser beams between satellites to measure the displacement of test masses with a precision ten times smaller than that of an atom.
Hisdesat implemented the RFQ measure after analyzing the latest reports from the main contractor of the SpainSat NG II satellite.
The House is expected to vote on the consolidated appropriations package that includes the Defense and Homeland Security division titles before the measure moves to the Senate for final approval and then to the President for signature.