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🎉 ¡Felicidades Dr. Jorge J. Sáenz! 🎓👏 Exitosa defensa de su Tesis Doctoral. 📡🔬Gran avance en el desarrollo de sensores avanzados, inspirados en la visión biológica y diseñados con tecnología CMOS, para imagen científica y detección de alta precisión.¡Enhorabuena, Jorge! 🚀

#Monolayer amorphous carbon, a new 2D material, surpasses graphene in toughness and crack resistance. Its unique composite structure offers promising advancements in material design and applications. Rice University @cellpressnews doi.org/g85jbr phys.org/news/2025-02-2…

#A novel NiO/Ag/NiO #TransparentElectrode boosts efficiency and durability in bifacial #Perovskite solar cells, maintaining 80% efficiency over 1,000 hours, promising advances in solar energy applications. SPIE techxplore.com/news/2025-02-h…

📢 ¡Atención, artistas y científicos! 🎨🔬 ¿Te apasiona la física y el arte? Te animamos a reflexionar sobre el mundo a nanoescala y a participar en el concurso de ilustración “Lo Pequeño”. 🏆 Premios de hasta 300€. 📅 Plazo: 6-27 de marzo. #ArteYCiencia #LoPequeño

This year is the International Year of Quantum Science and Technology. To celebrate, we are republishing stories on the history of quantum physics from our archives. This article recounts the discovery that electrons feel EM effects without a nearby field. go.aps.org/3QHG8kZ

#Space-time-coding metasurfaces promise to revolutionize 6G networks by enabling simultaneous high-speed communication and #Real-time environmental sensing, optimizing network efficiency and adaptability. Nature Communications doi.org/g86wm4 techxplore.com/news/2025-03-s…

#PRBTopDownload: #GraphTheory based approach to identify phase transitions in #CondensedMatter An Wang and Gabriele C. Sosso Phys. Rev. B 111, 054116 – Published 26 February, 2025 ➡️ go.aps.org/3XpAcRo #OpenAccess #condmat #physics @APSPhysics

#A serendipitous discovery shows stress and chemistry can etch intricate spiral patterns on germanium surfaces, revealing a novel interplay between mechanical stress and #ChemicalReactions. doi.org/g879dp phys.org/news/2025-03-s…

By squeezing a packet of laser light into a tiny sliver of a second, physicists can produce superintense pulses that, if only for an instant, deliver as much power as 1 million nuclear plants. Such petawatt lasers have enabled scientists to manipulate materials in new ways,

🔬🦸‍♂️ ¡La ciencia detrás de los superhéroes! 🏫⚡ Nuestro compañero Óscar Bomatí Miguel (Dpto. de Física de la Materia Condensada, UCA) explora cómo la ciencia da vida a los cómics en su charla Detrás de la Máscara: Ciencia, la Identidad Secreta de los Superhéroes. 🦸‍♀️📚

Researchers have developed a birefringent metasurface that, when hit with a beam of light, selectively transmits two beams of opposite chirality. The transparent device includes a layer of lithium niobate etched to create a lattice of nanocubes. go.aps.org/4ild533

Inch-sized bulk lanthanide oxychloride single crystals and single-crystalline thin films down to the monolayer are made through flux-enabled oriented attachment, providing a library of vdW materials with interesting dielectric and quantum properties. go.nature.com/4hYqM77

🔬✨ Nuestro compañero Óscar Bomatí (UCA) participa en las Clases Aplicadas con una charla en el IES Cornelio Balbo de Cádiz 📍. Ciencia cercana y con sentido. 🗓️ 30 de marzo de 2025 #DivulgaciónCientífica #UCA #Cádiz #ClasesAplicadas

PRB Editors' Suggestion: Exploring the accuracy of the equation-of-motion coupled-cluster band gap of #solids E. Moerman, H. Miranda, A. Gallo et al. Phys. Rev. B 111, L121202 ➡️ go.aps.org/3Xu1JkP #PRBLetter #OpenAccess #EdSugg American Physical Society #condmat #physics Tobias Schäfer

¡No te pierdas el reportaje de Canal Sur sobre la innovadora investigación de nuestro compañero Lionel Cervera y su equipo! 📹🧠 Desarrollan un sistema de monitorización por imagen para bebés en la UCA. canalsurmas.es/videos/233664-… 👶💙

Researchers have measured vortices in superconducting samples of various thicknesses and found larger-than predicted vortices in films made up of six or fewer atomic layers. The finding challenges physicists’ understanding of how superconductors behave. go.aps.org/44s7ZxD

Researchers have made thin, flexible sheets out of self-assembled nanoparticles of magnetite. The sheets bend under the influence of an applied magnetic field, opening a promising route to the magnetic actuation of soft robots. go.aps.org/4jNZaTj

¡Enhorabuena a nuestra compañera María V. Reyes Peces por la brillante defensa de su tesis doctoral! 🎓👏 Un excelente trabajo sobre biomateriales para regeneración ósea, realizado en nuestro Departamento. 🔬🦴¡Estamos muy orgullosos! #Doctorado #Investigación #UCA

PRB Editors' Suggestion: Edge modes and boundary impurities in the #anisotropic #Heisenberg #SpinChain Pradip Kattel, Parameshwar R. Pasnoori, J. H. Pixley, and Natan Andrei Phys. Rev. B 111, 174430 ➡️ go.aps.org/4j8ef1r #EdSugg @APSPhysics #physics #condmat

You might expect vapor deposition to be assisted by anchoring some particles to the surface to serve as starting locations for crystal growth. But that's not the case, say researchers. Their findings could inspire improved strategies for material design. go.aps.org/43A1FDH