In a traditional laser interferometer, light from a laser source is split into two beams, one of which is directed to the test surface and the other to a high-quality reference. The light ...

TEGO revolutionizes gravitational wave detection with its tetrahedral spacecraft formation, improving sensitivity and ...

The Verifire™ Laser Interferometer provides flatness metrology and surface form of optical components and wavefront of optical systems and subassemblies like windows, lenses, mirrors, prisms—and even ...

Rather than relying on a cheek swab or a little blood, however, these cosmic DNA tests utilize tiny ripples in the fabric of ...

The source emits a laser beam which hits the beam splitter; half of the beam gets sent to the target and then back to the beam splitter; the other half of the beam gets sent to the mirror and then ...

Researchers have demonstrated a new, unsupervised machine learning approach to find new patterns in the auxiliary channel data of the Laser Interferometer Gravitational-Wave Observatory.

Sailing has been a mainstay of human history for millennia, so it's no surprise that scientists would apply it to traveling ...

The Laser Interferometer Gravitational-Wave Observatory (LIGO) is a huge installation measured in kilometers that is listening for wrinkles in space-time. Pulling this off is a true story of ...

W hat will it take to detect dark matter—the invisible, nigh-intangible substance that might make up five-sixths of all ...

Optical science advances non-destructive testing (NDT) through technologies like laser ultrasonics, shearography, and optical ...

Let us help you with your inquiries, brochures and pricing requirements Request A Quote Download PDF Copy Request A Quote Download PDF Copy Request A Quote Download ...