Investigating laser interactions for improved fusion energy production.
S. H. Cao, M. J. Rosenberg, A. A. Solodov
― 5 min read
Cutting edge science explained simply
Investigating laser interactions for improved fusion energy production.
S. H. Cao, M. J. Rosenberg, A. A. Solodov
― 5 min read
A breakthrough method enhances Rydberg atoms for wide-band RF signal detection.
Nikunjkumar Prajapati, David A. Long, Alexandra B. Artusio-Glimpse
― 5 min read
New research focuses on improving compact optical atomic clocks using strontium atoms.
Oliver Fartmann, Martin Jutisz, Amir Mahdian
― 5 min read
Mott insulators exhibit unique changes in magnetic order when exposed to laser light.
Sankha Subhra Bakshi, Tanmoy Mondal, Pinaki Majumdar
― 6 min read
Researchers use optical cavities to observe cold atoms with less interference.
V. I. Gokul, Arun Bahuleyan, Raghuveer Singh Yadav
― 5 min read
Researchers find effective method for synchronizing Kerr solitons using auxiliary lasers.
Gregory Moille, Pradyoth Shandilya, Miro Erkintalo
― 4 min read
Researchers advance techniques to trap and manipulate strontium atoms for various applications.
Kai Wen, Huijin Chen, Xu Yan
― 4 min read
Research sheds light on nitrogen's behavior under intense laser interactions.
Carlo Kleine, Marc-Oliver Winghart, Zhuang-Yan Zhang
― 5 min read
New techniques in cooling particle beams may enhance future light sources.
M. Wallbank, J. Jarvis
― 6 min read
Research reveals a third phase noise component in resonant electro-optic frequency combs.
Holger R. Heebøll, Pooja Sekhar, Jasper Riebesehl
― 6 min read
New findings shine light on PHEOD solitons and their applications.
Xing Liao, Jiahan Huang, Daquan Lu
― 5 min read
Entangled two-photon absorption offers new methods to study plasma dynamics.
David R. Smith, Matthias Beuting, Daniel J. Den Hartog
― 5 min read
Research focuses on using multi-laser beams to study plasma magnetic fields.
T. Liseykina, E. Peganov, S. Popruzhenko
― 6 min read
Study reveals new methods to enhance metal 3D printing outcomes.
Cyril Blanc, Ayyoub Ahar, Kurt De Grave
― 5 min read
Researchers develop laser techniques to create and study electron-positron plasma.
Alexander Samsonov, Alexander Pukhov
― 5 min read
A new two-step method improves laser light analysis for various applications.
Lark E. Bradsby, Andrew A. Voitiv, Mark E. Siemens
― 4 min read
Exploring new methods for stabilizing laser frequencies using advanced modulation techniques.
J. Tu, A. Restelli, T. -C. Tsui
― 8 min read
New technique simplifies the creation of GKP states in optical systems.
Fattah Sakuldee
― 5 min read
Research focuses on improving the accuracy of optical lattice clocks through innovative methods.
Tobias Bothwell, Benjamin D. Hunt, Jacob L. Siegel
― 5 min read
Researchers combine trapped ions and neutral atoms to enhance quantum computing methods.
Subhra Mudli, Subhanka Mal, Sinchan Snigdha Rej
― 5 min read
Scientists develop laser methods to create unique surface patterns for various applications.
Vladimir Yu. Fedorov, Jean-Philippe Colombier
― 7 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
Researchers utilize autocorrelation to understand the behavior of attosecond pulses.
Fei Li, Kun Zhao, Bing-Bing Wang
― 5 min read
Exploring the behavior of electrons influenced by strong laser light.
Antonino Di Piazza, Martin Formanek, Dillon Ramsey
― 7 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
Research improves gamma-ray emission efficiency using lasers and plasma interactions.
Kavin Tangtartharakul, Gaetan Fauvel, Talia Meir
― 5 min read
This study reveals insights on electron behavior in undulators and their photon emissions.
Eugene Bulyak
― 5 min read
Researchers develop new transfer cavities for improved laser frequency stability.
Timo Zwettler, Zeyang Xue, Gaia Bolognini
― 4 min read
Researchers develop improved imaging methods using YAG material and Townes solitons.
Nicholas Bagley, Sahar Wehbi, Tigran Mansuryan
― 5 min read
New techniques enhance the trapping of cold molecules for quantum research.
Grace K. Li, Christian Hallas, John M. Doyle
― 5 min read
Researchers are advancing techniques for creating unique vortex beams for various applications.
Sopfy Karuseichyk, Ilan Audoin, Vishwa Pal
― 8 min read
New amplifier technology boosts light pulses for environmental monitoring and laser applications.
Alexander Rudenkov, Vladimir L. Kalashnikov, Maxim Demesh
― 5 min read
Research on using lasers to accelerate electrons with dielectric structures shows great promise.
G. V. Sotnikov, A. V. Vasiliev, I. V. Beznosenko
― 5 min read
Using perfect optical vortex beams enhances high-order harmonic generation efficiency.
Bikash Kumar Das, C. Granados, M. Krüger
― 5 min read
Microlasers show promise for various applications, driven by innovative designs and components.
Stefan Ruschel, Venkata A. Pammi, Rémy Braive
― 4 min read
Research explores ultrafast laser pulses on metals and superconductors.
Kazuya Shinjo, Shigetoshi Sota, Seiji Yunoki
― 6 min read
Scientists study interactions of lithium atoms in cold gas using lasers.
N. Joshi, Vaibhav Mahendrakar, M. Niranjan
― 6 min read
Discover the intriguing world of vortex states in quantum physics.
Lingran Kong, Tianyou Gao, Shi-Guo Peng
― 5 min read
Harnessing MDCS to study complex electron behaviors in materials.
Jiyu Chen, Philipp Werner
― 8 min read