Research improves cycling endurance of GSST phase change materials in optical applications.
Cosmin Constantin Popescu, Kiumars Aryana, Brian Mills
― 6 min read
Learn how coherent states combine properties of classical waves with quantum behaviors.
Saumya Biswas, Amrit De, Avik Dutt
― 4 min read
Scientists develop laser methods to create unique surface patterns for various applications.
Vladimir Yu. Fedorov, Jean-Philippe Colombier
― 7 min read
A new method improves precision in optical measurements using classical light sources.
Romain Dalidet, Anthony Martin, Grégory Sauder
― 6 min read
Study reveals phase and amplitude behavior of SPhPs in gallium phosphide.
Giulia Carini, Richarda Niemann, Niclas Sven Mueller
― 8 min read
Exploring the effects of time-varying properties in quantum electrodynamics.
S. A. R. Horsley, R. K. Baker
― 6 min read
An overview of nanoparticle characterization using microscopy techniques.
Berenice Garcia Rodriguez, Erik Olsén, Fredrik Skärberg
― 6 min read
A study reveals how machine learning can improve Mueller polarimetry for medical diagnostics.
Sooyong Chae, Tongyu Huang, Omar Rodrıguez-Nunez
― 5 min read
An exploration of how fermions and bosons behave in beamsplitters and interferometers.
Jonte R. Hance
― 5 min read
A new method improves single-photon sources for secure quantum communication.
Yusuf Karli, René Schwarz, Florian Kappe
― 6 min read
Research reveals quantum effects crucial for high-harmonic generation advancements.
Sebastián de-la-Peña, Ofer Neufeld, Matan Even Tzur
― 4 min read
A look at non-Hermitian systems and their role in signal amplification and material properties.
Tomoki Ozawa, Henning Schomerus
― 6 min read
Research on mirror properties improves gravitational wave detection sensitivity.
Maxime Le Jean, Jerome Degallaix, David Hofman
― 5 min read
New techniques in optics enhance light frequency conversion efficiency.
Sahil Pontula, Sachin Vaidya, Charles Roques-Carmes
― 6 min read
This study examines how temperature affects mechanical losses in Eu:YSO for laser applications.
Nico Wagner, Johannes Dickmann, Bess Fang
― 5 min read
NEXCERA shows promise for improving ultrastable laser cavities with low thermal noise.
Nico Wagner, Mateusz Narożnik, Marcin Bober
― 4 min read
Vortex Interference Localization Microscopy improves how scientists see cellular structures.
Wei Wang, Zengxin Huang, Yilin Wang
― 4 min read
New multi-core hollow core fibres improve data transmission with lower losses.
Robbie Mears, Kerrianne Harrington, William J Wadsworth
― 5 min read
Research reveals how membranes can generate unique sound frequency patterns.
Mengqi Fu, Orjan Ameye, Fan Yang
― 5 min read
Exploring the potential of quantum dots in nanowires for future technologies.
Jun Gao, Govind Krishna, Edith Yeung
― 5 min read
A straightforward approach to produce high-quality x-ray vortex beams for advanced research.
Zhikai Zhou, Yin Kang, Weishi Wan
― 5 min read
New methods improve light manipulation with lithium niobate structures.
Ülle-Linda Talts, Helena C. Weigand, Irene Occhiodori
― 5 min read
A new optical clock successfully moved 3,000 kilometers, showcasing advanced timekeeping technology.
Tobias Bothwell, Wesley Brand, Robert Fasano
― 5 min read
Researchers develop new transfer cavities for improved laser frequency stability.
Timo Zwettler, Zeyang Xue, Gaia Bolognini
― 4 min read
Researchers enhance multimode fiber imaging reliability with neural networks, despite temperature fluctuations.
Kun Wang, Changyan Zhu, Ennio Colicchia
― 5 min read
New methods lead to tiny machines with great potential.
Gan Wang, Marcel Rey, Antonio Ciarlo
― 7 min read
Researchers develop improved imaging methods using YAG material and Townes solitons.
Nicholas Bagley, Sahar Wehbi, Tigran Mansuryan
― 5 min read
Bilayer metasurfaces improve light control for various applications.
Ahmed H. Dorrah, Joon-Suh Park, Alfonso Palmieri
― 4 min read
Terahertz technology offers high-speed communication and precise location tracking for future networks.
Qigejian Wang, Yirui Deng, Deepak Mishra
― 6 min read
Research reveals unique properties of exciton-polaritons in aperiodic Penrose tiling.
Sergey Alyatkin, Kirill Sitnik, Valtýr Kári Daníelsson
― 5 min read
Study reveals how light patterns can direct tiny particles' movement in fluids.
Rahul Chand, Ashutosh Shukla, G V Pavan Kumar
― 4 min read
Investigating quantum effects in light behavior at material surfaces.
Zeling Chen, Shu Yang, Zetao Xie
― 8 min read
Recent developments in quantum algorithms and hardware show great potential for efficiency.
Xiao-Wen Shang, Xuan Chen, Narendra N. Hegade
― 6 min read
Researchers manipulate light direction using atomic motion and topological models for new optical devices.
Xiao Liu, Jiefei Wang, Ruosong Mao
― 5 min read
New imaging techniques improve clarity in minimally invasive surgeries.
Anthony A. Song, Mason T. Chen, Taylor L. Bobrow
― 5 min read
A study reveals new patterns in light through polarization self-rotation.
K. S. Manannikov, E. I. Mironova, A. S. Poliakov
― 5 min read
New techniques improve speed and reliability in fiber optic communication.
Mario Zitelli
― 6 min read
New detection technique improves THz waveform measurement speed and accuracy.
Alexander Holm Ohrt, Olivér Nagy, Robin Löscher
― 5 min read
Researchers study light flow in nonlinear crystals, revealing unique soliton dynamics.
Ludovica Dieli, Davide Pierangeli, Eugenio DelRe
― 4 min read
Researchers are advancing techniques for creating unique vortex beams for various applications.
Sopfy Karuseichyk, Ilan Audoin, Vishwa Pal
― 8 min read