SFB1432 @SFB1432 - Twitter Profile

about 2 years ago

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 https://t.co/du6Qec4qtm

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SFB1432 @SFB1432

about 2 years ago

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

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SFB1432 @SFB1432

about 2 years ago

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

SFB1432's tweet photo. 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 https://t.co/dO6DobB7JD

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SFB1432 @SFB1432

about 2 years ago

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 https://t.co/mIpqtOZ4rf

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Who to follow

Quantum physicist. Lab website: https://t.co/hRIZYMQ6BU; Professor of Theoretical Solid State Physics at Uni Bremen; views are my own

Quantum Information & Quantum Simulations @Jena

@GaerttnerGroup

Research group at @UniJena, with a focus on quantum information theory and machine learning for CV-systems.

SFB1432 @SFB1432

over 2 years ago

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

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SFB1432 @SFB1432

over 2 years ago

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

SFB1432's tweet photo. 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 https://t.co/zSuQshk6U1

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SFB1432 @SFB1432

over 2 years ago

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

SFB1432's tweet photo. 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 https://t.co/CNTyUhiww8

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SFB1432 @SFB1432

over 2 years ago

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

SFB1432's tweet photo. 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 https://t.co/8jWED0VehK

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SFB1432 @SFB1432

over 2 years ago

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

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SFB1432 retweeted

Physical Review Research @PhysRevResearch

over 2 years ago

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

PhysRevResearch's tweet photo. 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 https://t.co/d1CltlooD8

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SFB1432 @SFB1432

over 2 years ago

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

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SFB1432 @SFB1432

over 2 years ago

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

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SFB1432 @SFB1432

over 2 years ago

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

SFB1432's tweet photo. 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 https://t.co/qpOXu12Bf4

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SFB1432 @SFB1432

over 2 years ago

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

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SFB1432 @SFB1432

over 2 years ago

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

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SFB1432 @SFB1432

over 2 years ago

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

SFB1432's tweet photo. 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 https://t.co/ev07vCtneR

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SFB1432 @SFB1432

over 2 years ago

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

SFB1432's tweet photo. 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 https://t.co/AYPyrdVIdC

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SFB1432 @SFB1432

over 2 years ago

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

SFB1432's tweet photo. 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 https://t.co/VvlM4Zq8ve

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SFB1432 @SFB1432

over 2 years ago

SFB1432's tweet photo. 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 https://t.co/V3h9WjN4Up

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SFB1432 @SFB1432

over 2 years ago

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

SFB1432's tweet photo. 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 https://t.co/HrT2IqAjSZ

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SFB1432

@SFB1432

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