This achievement sprouting from a collaboration with the University of Texas at Austin lays the foundation for an emerge…

IR laser cleave technology enables nanometer-precision layer transfer through silicon, eliminating glass substrates for advanced packaging and enabling thin-layer 3D stacking

EVG’s new NanoCleave technology utilizes an IR laser and inorganic release materials to enable laser debonding on silico…

Application of Non-Bravais lattices to light control technology

By breaking the symmetry of the periodic square lattice of silicon nanodisks, the team has demonstrated experimentally a…

With new interface improvements, the Compass 2 now delivers 3x better form deviation performance than the original Compa…

Glass nanoparticles show unexpected coupling when levitated with laser light

It came as quite a surprise to the researchers in Vienna when they saw a completely different behavior than was expected…

Technology Advances Primed to Usher in a New Era for Active Archiving and Ultimately Establish a New Normal for All Archival Data

Leveraging patented advancements in materials science, Folio Photonics has developed the first economically viable, ente…

Physicists at the Max Planck Institute of Quantum Optics have managed to entangle more than a dozen photons efficiently and in a defined way. They are thus creating a basis for a new type of quantum computer.

Following a novel technique, the researchers generated up to 14 entangled photons in an optical resonator, which can be…

At TU Wien (Vienna) and The Hebrew University of Jerusalem, a "light trap" was developed in which a beam of light prevents itself from escaping. This allows light to be absorbed perfectly.

Research teams from TU Wien and from The Hebrew University of Jerusalem have found a surprising trick that allows a beam…

In a new study, recently published in the journal Science, scientists demonstrate a novel method for generating cavity-p…

Nanopillar-studded surfaces interact with light to provide a new way to trap, image and manipulate single atoms.

In the new design, instead of typical lenses, the NIST team used unconventional optics — a square glass wafer about 4 mi…

Such a switch could eventually enable data processing using photons. The research was published in the

Quantum heat engines are heat engines based on quantum mechanical principles. There have been several theoretical propos…

Quantum computing hardware specialists at UNSW have built a quantum processor in silicon to simulate an organic molecule with astounding precision.

A team of quantum computer physicists at UNSW Sydney have engineered a quantum processor at the atomic scale to simulate…

The ability to produce two distinctly different images is possible thanks to the ANU scientists' ability to control the…

In their experiments, the physicists used so-called quantum dots, structures in semiconductors only a few nanometres in…

By measuring at wavelength, end users in remote sensing, defense, and aerospace measure optical performance without need…

To experimentally demonstrate that this principle actually works, the researchers illuminated the material with laser li…

Researchers at Rochester and Erlangen have taken a decisive step toward creating ultrafast computers.

In the researchers’ experiment, the input signals are the shape or phase of two synchronized laser pulses, each one chos…

Reinterpretation of quantum computers' 'quantum entanglement' as the complementary wave nature of quantum mechanics

Non-local quantum correlation has been fully demonstrated experimentally over the past half century. The limitation of e…

A university-industry collaboration has successfully run a quantum algorithm on a type of quantum computer known as a co…