Discover the "liquid glass" state in ellipsoidal colloids—where rotation freezes but translation flows, revealing dual glass transitions! Read more about the research of project C07 @SFB1432 @UniKonstanz #MaterialScience #Innovation @dfg_public

Collaborative work of the @SFB1432 with @IBMResearch and @ETH has led to a breakthrough: a flux-tunable #Josephson diode in a hybrid junction, achieving up to 34% efficiency without exotic materials. https://t.co/SYc0RPI5hH @dfg_public @UniKonstanz #supercondutor #2DEG

Our research breaks barriers with electric fields surpassing 330 MV/cm at 45 THz, opening new horizons in the study of matter at the submolecular level. High precision meets high speed in project B07 of the @SFB1432: https://t.co/7S7e3I7UFP. #Photonics @UniKonstanz @dfg_public

Collaboration with @CREOLatUCF & @BAESystemsInc unveils direct femtosecond waveform sampling via an optical parametric oscillator, enhancing quantum optics and revealing unique pulse "flipping" phenomena! #QuantumOptics #Photonics @UniKonstanz @dfg_public

Editor's suggestion! Latest research showcases precise control over yttrium iron garnet films via lateral solid phase epitaxy, a game-changer for spintronics. A cooperation of @SFB1432 @UniKonstanz with researchers of @tudresden_de. https://t.co/6m2KtWYt57 @dfg_public

Ultrafast electron beam probes offer unprecedented insight into ultrafast electronics, providing femtosecond time resolution and millivolt sensitivity for next-gen semiconductor research and development: https://t.co/1QV49OPlnK @dfg_public @UniKonstanz @NatureComms

Unlocking quantum gate potential with oscillating exchange pulses! CZ & iSWAP gates offer flexibility for quantum algorithms, even under low charge noise. New publication of @SFB1432. Read more https://t.co/RNaNRAg8UC via @QuantSciTech #QuantumComputing @dfg_public

Looking back on the stimulating discussions at the 5th Lüscher-Wassermann Seminar 2024! Against the snow-covered backdrop of the Alps, a day about "Fluctuations from the classics to the quanta", aligned with our CRC topic and led by two CRC 1432 Pls, offered valuable perspectives

Exploring hybrid #superconducting #SET reveals intriguing interplay between #Andreev reflection & #Coulomb blockade, showcasing significant contributions above the superconducting gap. Joint work of @SFB1432 @UniKonstanz, @GrenobleINP, @upvehu. https://t.co/U2nmlpqXJf @dfg_public

Two levels of topology in skyrmion lattice dynamics, Daniel Schick, Markus Weißenhofer, Levente Rózsa, Jan Rothörl, Peter Virnau, and Ulrich Nowak @SFB1432 #CondensedMatter #Materials https://t.co/nN2TacnyJx

Unlocking semiconductor potential:Fe/SrTiO3 interfaces switch between electron and hole carriers, enabling advanced all-oxide transistors. A collaboration of @SFB1432 @UniKonstanz with @TU_Dortmund,@fz_juelich, @psich_en and @ruhrunibochum https://t.co/IXhbQsEwQM |@dfg_public

Advancing ultrafast optics:A new method developed at @SFB1432 project A06 @UniKonstanz and researchers of @unibt controls soliton motion in a single-fiber laser, enabling high-speed, all-optical synthesis for precise measurements. Read more: https://t.co/67E91KacTT | @dfg_public

Fascinating results in phase transitions: Fractal dimension analysis applied to VO2 exposes the Ising model's interaction strength. A significant leap in understanding complex materials. Read the study of proj. B05 @PhysRevResearch: https://t.co/WC0yMFhUNn @dfg_public @UniKonstanz

Happy New Year from @SFB1432! Wishing everyone a year filled with new discoveries, innovative research, and collaborative breakthroughs. May 2024 be a year of knowledge, progress, and success! #NewYear #ResearchGoals #Innovation2024

A new publication of @SFB1432 project B06 @NatureComms about #ultrafast spontaneous #spin switching due to #noise appeared. Get first insights at the news article of @UniKonstanz : https://t.co/DyiENVrAbh or head directly into the paper: https://t.co/zLjQj4DFpi |@dfg_public

In the publication"#Defect-Enhanced #Diffusion of #Magnetic #Skyrmions"@PhysRevB of @SFB1432 @UniKonstanz atomistic simulations reveal a surprising enhancement of the thermal diffusion of ferromagnetic skyrmions. Curios where this comes from? https://t.co/1Uj9oymifS @dfg_public

Magnetic impurities at the surface of superconducting nanobridges can significantly help to suppress superconductivity and therefore the supercurrent. How? Find out in the new publication at @PhysRevB within project A02 @SFB1432 @UniKonstanz: https://t.co/kqOvwO6TJw @dfg_public

Today we have Prof. Dr. András Pályi from @unibme_official as guest speaker at the @SFB1432 Colloquium @UniKonstanz. He will talk about "#Weyl points beyond band structures: classical mechanics, #spin #qubits, #Josephson junctions," https://t.co/QmjZ2woZs2

New publication "#Magnon #squeezing in conical #spin spirals" as result of a joint research of the projects A03, B02 and B06 of the @SFB1432 at @PhysRevResearch: https://t.co/95UCZUNzYJ |@UniKonstanz|@dfg_public|@unibme_official|#Goldstone|#Brillouin|#nonreciprocal|#modes

Read a great news article from @UniKonstanz about an amazing new @NaturePhysics publication from #SFB1432 project C05 that documents the existence of the #Magnus effect at the #microscopic scale for the first time! https://t.co/wg2rgvExvX and https://t.co/hRsMZjBY9C |@dfg_public