Chip Industry’s Technical Paper Roundup: Mar. 6


New technical papers recently added to Semiconductor Engineering’s library: [table id=84 /] If you have research papers you are trying to promote, we will review them to see if they are a good fit for our global audience. At a minimum, papers need to be well researched and documented, relevant to the semiconductor ecosystem, and free of marketing bias. There is no cost involved for us ... » read more

Research Bits: Feb. 28


Single-molecule switch An international team of researchers have demonstrated a switch on a single fullerene molecule. Using a laser, the team switched the path of an incoming electron. “What we’ve managed to do here is control the way a molecule directs the path of an incoming electron using a very short pulse of red laser light,” said Project Researcher Hirofumi Yanagisawa from the Uni... » read more

Research Bits: Feb. 21


High-quality ‘chirps’ for automotive, industrial mmWave radar Imec demonstrated a low-power phase-locked loop (PLL) that generates high-quality frequency-modulated continuous-wave (FMCW) signals for mmWave radar, which can be used in short-range automotive and industrial radar applications. The FMCW radars popular in healthcare, automotive, and industrial send out sinusoidal waves that get... » read more

Research Bits: Feb. 14


Defining Kagome superconductors An international team of scientists and researchers from the Brown University lab are now able to describe the structure of the superconductor Kagome metals. The team used nuclear magnetic resonance (NMR) imaging and a quantum modeling theory to describe the microscopic structure as the metal changed states into a charge density wave (CDW) state at 103°Kelvin (... » read more

Research Bits: Jan. 31


The power of proximity Researchers from Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab), Stanford, and University of California Berkeley have observed that electrons transfer heat rapidly between layers of the 2D semiconductor materials tungsten diselenide (WSe2) and tungsten disulfide (WS2). The electrons acted as a bridge between the two materials, the layers of... » read more

Research Bits: Dec. 20


Patch tracks blood in deep tissue A skin-worn photoacoustic patch developed by a research team at the University of California San Diego is equipped with arrays of laser diodes and piezoelectric transducers to detect biomolecules in deep tissues, which usually would require a magnetic resonance imaging (MRI) and X-ray-computed tomography. The patch may help doctors tract hemoglobin in real tim... » read more

Research Bits: Nov. 29


Earth-bound, more accurate GPS A new idea for terrestrial-based global navigation satellite systems (GNSS) that uses very accurate national atomic clocks on the ground may help self-driving cars in urban environments get where they are going. Researchers from Delft University of Technology (TU Delft), Vrije Universiteit Amsterdam, and VSL have prototyped a hybrid optical–wireless mobile netw... » read more

Chip Industry’s Technical Paper Roundup: Oct 25


New technical papers added to Semiconductor Engineering’s library this week. [table id=59 /] » read more

Covid-19 Tech Bits: April 14


Modeling coronavirus spread Four teams of Finnish researchers have modeled the coughing spread of COVID-19 in tight indoor areas, such as grocery stores and public transportation systems, using a supercomputer and 3D visualization. “The aerosol cloud spreads outside the immediate vicinity of the coughing person and dilutes in the process," said Aalto University Assistant Professor Ville V... » read more

COVID-19 Tech Bits


Tech companies, consortiums and universities are jumping in to help fight COVID-19, deploying everything from massive computing capabilities to developing new technologies that can protect medical workers and first responders. Nearly all of these have ramped up over the past several weeks, as the tech world begins to take on a global challenge to combat the deadly virus. Compute resources... » read more