Livermore Lab Experiment Paves Way for Higher-Resolution
Earlier this year, Lawrence Livermore National Laboratory (LLNL) seismologist Gene Ichinose and his team plugged a device known as an interrogator into a 50-mile-long fiber-optic
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National Laboratory Optical Fiber
Optical Fiber Production
Preliminary results have been promising. From mid-February to mid-March, the investigation manufactured a total of more than seven miles (11.9 km) of optical fiber. Eight of the
Researchers develop new amplifier that could double the capacity of
Lawrence Livermore National Laboratory (LLNL) researchers have taken an important step in addressing that need by developing a new type of optical fiber amplifier that could potentially double
Lawrence Livermore National Laboratory researchers harness fiber optic
Ichinose showed us the footprint of a recent 3.9 magnitude earthquake in the East Bay. It was captured, not by a traditional seismograph, but the kind of fiber optic cable that might carry...
New quantum loop provides long national testbed for quantum
The Argonne quantum loop consists of a pair of connected 26-mile fiber-optic cables that wind circuitously between Argonne to the Illinois tollway near Bolingbrook, IL, and back. At 52 total
Could fiber-optic cables detect moonquakes?
Fiber-optic cables lie on the surface and beneath crushed basalt in an indoor lab at Los Alamos National Laboratory to determine whether they could be used on the surface of the moon to
Los Alamos National Laboratory Researchers Explore Using Fiber
Fiber-optic cables deployed far from a landing site could help fill that gap by providing data on how widely debris spreads. Donahue and her Los Alamos colleagues are now exploring how
From The DOE''s Lawrence Berkeley National Laboratory: “How Fiber
Scientists at the Department of Energy''s Lawrence Berkeley National Laboratory (Berkeley Lab) are developing sensing technologies consisting of fiber-optic cables, which could be installed on
Researchers find a new way to monitor natural hazards with fiber-optic
To address these challenges, NSF-supported researchers are leveraging the existing telecommunication fiber-optic infrastructure in Pittsburgh as a novel underground sensor network to
Manufacturing ZBLAN in Space
Initial results have been promising, and successful ZBLAN fiber production on the ISS National Lab could pave the way for future large-scale commercial manufacturing of ZBLAN in low Earth orbit.
Researchers develop new amplifier that could double
Lawrence Livermore National Laboratory (LLNL) researchers have taken an important step in addressing that need by developing a new type of optical fiber