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Introduction The global magnetic sensitive transistor market is projected to grow from USD 1.4 billion in 2024 to USD 3.8 billion by 2034, reflecting a CAGR of 10.6%. Magnetic sensitive transistors ...
Magnetic oil droplets with switchable rolling and swimming modes enable adaptive navigation, particle transport, and control in chemically varied environments.
Biomedical applications of magnetic nanoparticle (MNP) swarm control rely on precise manipulation of the swarm using magnetic fields. This approach improves the accessibility and maneuverability of ...
In their new study, led by doctoral candidate Leora Schein-Lubomirsky, the researchers developed a machine that generates a gradient magnetic field focused around an atomic magnetic sensor. This ...
Researchers captured sound fields around musical triangles. They wanted to understand the physical properties of the triangle instrument, test assumptions about the contribution of the triangle ...
The nanoparticles just 120 nanometers in size had a photothermal conversion efficiency of 63%, outperforming many conventional photothermal agents, and were sufficient to kill cancer cells.
A new treatment for ovarian cancer and endometriosis uses tiny lab-made nanoparticles to heat up targeted areas by exposing them to an alternating magnetic field.
A new technical paper titled “Computing high-degree polynomial gradients in memory” was published by researchers at UCSB, HP Labs, Forschungszentrum Juelich GmbH, and RWTH Aachen University. Abstract ...
Researchers developed RAPTOR, a patent-pending optical counterfeit detection method for chips used in semiconductor devices. It leverages deep learning to identify tampering. It improves upon ...
Purdue University researchers have developed RAPTOR, a patent-pending optical counterfeit detection method for chips used in semiconductor devices. It leverages deep learning to identify tampering ...
Purdue University researchers have developed RAPTOR, an optical counterfeit detection method for chips used in semiconductor devices.
This article explores how to enhance the detection of airborne nanoparticle detection in semiconductor tools.
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