1,000x Faster: Ultrafast Photonics Chip Reshapes Signal Processing
A research team has unveiled a microwave photonic chip that significantly enhances analog electronic signal processing, offering 1,000 times the speed and greater energy efficiency…
A research team has unveiled a microwave photonic chip that significantly enhances analog electronic signal processing, offering 1,000 times the speed and greater energy efficiency…
The FIT4NANO project has mapped out the expansive applications and future directions of focused ion beam technology, emphasizing its critical role in advancing research and…
The ISSCC 2024 paper presents a ‘ground-breaking’ DC-DC converter that unifies power switches on a single chip. Scientists from the University of California San Diego…
New research validates method for guided discovery of 3D flat-band materials. Scientists at Rice University have uncovered a first-of-its-kind material: a 3D crystalline metal in…
The miniaturization of electronic components, including transistors, has hit a plateau, presenting obstacles in the production of semiconductors. Nonetheless, a group of researchers, led by…
A novel computational technique has revealed hundreds of ceramic materials possessing a wide range of potentially industry-disrupting properties like electronics that could function in a…
Researchers at Osaka University have created a soft, pliable, and wireless optical sensor using carbon nanotubes and organic transistors on an ultra-thin polymer film. This…
Scientists at the Georgia Institute of Technology have developed the world’s first world’s first functional semiconductor made from graphene. Graphene, characterized by a single layer…
At the 2024 Consumer Electronics Show (CES), the spotlight was on groundbreaking developments in AI and healthcare. However, battery technology is the game-changer at the…
Researchers create UV-sensitive tape that can transfer 2D materials like graphene in an easier, cheaper, and less damaging way. Materials just atoms in thickness, known…
Optical thermometry utilizing upconversion (UC) luminescence from lanthanides offers both high sensitivity and swift response times. This technique is grounded in the principle of UC…
Breakthrough research enables precise control of electron spins in magnetic materials, a significant step towards the development of faster, more efficient electronics. Deep within every…
Researchers have transformed coal into high-purity materials for use in next-generation electronic devices, marking a significant shift in its economic and technological applications. Coal is…
A new electronic device precisely and rapidly controls the switching on and off of heat. A team of scientists from UCLA has unveiled a first-of-its-kind…
Researchers develop hybrid phase-change memristors that offer fast, low-power, and high-density computing memory. By strategically straining materials that are as thin as a single layer…
In the era of big data and advanced artificial intelligence, traditional data storage methods are becoming inadequate. To address the need for high-capacity and energy-efficient…
Using sound waves to control atomic vacancies could enhance communication technologies and provide novel control mechanisms for quantum computing. Acoustic resonators are everywhere. In fact,…
Ultrafast lasers and X-rays have revealed the coupling between electronic and nuclear dynamics in molecules. Nearly a century ago, physicists Max Born and J. Robert…