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This new laser offers fast tuning with low noise and high power.
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Research highlights the potential of micro-lattice structures to improve drone safety.
Louis Catar, Ilyass Tabiai, David St-Onge
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Research reveals how hydrogen affects flame behavior in gas turbine combustors.
Bayu Dharmaputra, Pushkin Nagpure, Matteo Impagnatiello
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New microactuators harness internal combustion for fast and powerful movement.
Ilia Uvarov, Pavel Shlepakov, Vitaly Svetovoy
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A new method accurately reconstructs strain fields in materials using neutron imaging.
Chris Wensrich, Sean Holman, William Lionheart
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Researchers create efficient microwave-optics entanglement for improved quantum networks.
Hao-Tian Li, Zhi-Yuan Fan, Huai-Bing Zhu
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This study examines how temperature affects the movement of gold nanoparticles.
Gerard N. Hinsley, Fabian Westermeister, Bihan Wang
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Explore the potential of Physical Neural Networks to transform computing efficiency.
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Study reveals how defects in silicon affect laser light absorption.
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This article examines how humidity affects hard drives and their reliability.
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Strategies to improve data accuracy in Magnetic Resonance Force Microscopy.
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New techniques reduce noise in multi-soliton states for optical technologies.
Pradyoth Shandilya, Shao-Chien Ou, Jordan Stone
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A new method enhances the design of phononic materials for sound control.
Mary V. Bastawrous, Zhi Chen, Alexander C. Ogren
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The SHNA uses the spin Hall effect to emit electromagnetic waves efficiently.
Raisa Fabiha, Pratap Kumar Pal, Michael Suche
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A novel approach to create clean surfaces for cubic perovskite oxides.
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A new technique generates squeezed light using excitons and phonons at room temperature.
Xuan Zuo, Zi-Xu Lu, Zhi-Yuan Fan
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New technologies are improving the efficiency of near-infrared light detectors.
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Exploring the future of information storage with quantum memory.
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This study explores the use of magnetic forces for trapping nanoparticles using light.
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Researchers develop materials that adapt sound properties in real time.
Thomas Daunizeau, Sinan Haliyo, David Gueorguiev
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Researchers enhance the optical Kerr effect using guided-mode resonance gratings for advanced photonic systems.
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Research reveals new methods for imaging sensitive samples with minimal damage.
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Researchers create efficient vortex beams using new materials.
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A look at the AutoResonant Trap Mass Spectrometer and its benefits.
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A deep look into soft magnetic composite materials and their modeling.
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A new approach enhances reliability for electronic devices using aluminum oxide on gallium oxide.
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A structured approach to enhance superconducting circuits and qubit designs.
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Examining the potential of micas in modern electronics.
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A look into how attractive and repulsive forces affect quantum oscillators.
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New method enhances the absorption of electromagnetic waves using time-varying materials.
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Enhancing magnetic sensing with NV centers for improved sensitivity and performance.
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Discover how tension in elastic sheets leads to unexpected movements and applications.
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A new method offers rapid switching capabilities in optical systems.
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This study reveals how simple neurons communicate and synchronize in a roundworm.
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An analysis of time transfer limitations in various conditions.
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Examining the impact of road networks on urban development in Australia.
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Explore how brain connections impact language abilities and communication.
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Textile hinges improve flexibility and movement in mechanical metamaterials.
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Research on magnetic inertia offers insights for faster magnetic devices.
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Study reveals pore collapse dynamics in PMMA during shock impact.
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