Researchers at the Max Planck Institute for the Structure and Dynamics of Matter (MPSD) have developed an innovative method to study ultrafast magnetism in materials. They have shown the generation and application of magnetic field steps, in which a magnetic field is turned on in a matter of picoseconds.
Chirality is a fundamental property of matter that determines many biological, chemical and physical phenomena. Chiral solids, for example, offer exciting opportunities for catalysis, sensing and optical devices by enabling unique interactions with chiral molecules and polarized light. These properties are however established when the material is…
Researchers at the Max Planck Institute for the Structure and Dynamics of Matter (MPSD) and MIT have successfully created a new, long-lasting magnetic state in an antiferromagnetic material using only light. This breakthrough holds significant promise for advancing information processing and memory chip technology. The team reports the direct…
Angel Rubio, Director of the Theory Department at the Max Planck Institute for the Structure and Dynamics of Matter (MPSD) and Managing Director of the Institute, has been recognized as a Highly Cited Researcher 2024 by Clarivate. Joining him on this prestigious list are Jie Shan and Kin Fai Mak from Cornell University, all three of them are…
Researchers at the Max Planck Institute for the Structure and Dynamics of Matter have made a groundbreaking advancement in light-controlled superconductivity, demonstrating that superconducting properties can be enhanced by coupling materials with quantum light in optical cavities. This study uses magnesium diboride (MgB2), a well-known…
MPSD Director Philip Moll has been elected a Fellow of the American Physical Society (APS) for his achievements in the field of microstructured quantum matter.
The renewed funding comes from Columbia University, the Flatiron Institute, the MPSD and the Max Planck Institute for Polymer Research in Mainz, Germany. The New York Center will also expand to include Cornell University as a new partner institution.
Researchers at the MPSD and Brookhaven National Laboratory used two-dimensional terahertz spectroscopy (2DTS) in a non-collinear geometry for the first time to isolate specific terahertz nonlinearities in the cuprate superconductor La1.83Sr0.17CuO4 by their emission direction. Their work has been published in Nature Physics.
With the ERC Starting Grant, Chunyu Guo will investigate the novel effects of electronic correlations in the recently discovered AV3Sb5 family of Kagome superconductors using a high-precision framework that isolates the samples from external influences.
The workshop in northern Spain, organised by the New York City Center on Non-Equilibrium Quantum Phenomena, provided the perfect forum to discuss some key questions for the quantum science era.
The multiferroic NiI2 has greater magnetoelectric coupling than any known material of its kind, making it a prime candidate for technology advances, an international research team reports in Nature.
Researchers in the Cavalleri group discover that photo-excited YBa2Cu3O6.48, in addition to featuring near zero resistance, also expels a static magnetic field from its interior. Their work has been published in Nature.
