Real-Time Feedback Amplification for Programmable Quantum Dynamics Without Pulse Shaping

A proportional feedback loop using only an optical amplifier drives one quantum system to mimic another's response in real-time—demonstrated by hydrogen replicating argon's HHG spectra and a weakly-correlated lattice reproducing Mott-insulator transport.

#QuantumControl #QuantumMaterials #Research

Materials Beyond Hamiltonian Limits: Quantum Measurement as a Resource for Material Design

Unitary-projective electron dynamics—interleaving Hamiltonian evolution with Born-rule state updates—enables passive single-electron valves, novel non-equilibrium magnetism, and super-Carnot energy conversion in engineered quantum materials.

#QuantumMaterials #OpenQuantumSystems #Research

Epitaxial CeO₂ Thin Films as Zero-Nuclear-Spin Hosts for Rare-Earth Quantum Emitters

CeO₂ films doped with Er³⁺ show ms-range PL lifetimes vs μs for Tm³⁺. DFT reveals Tm 4f–O 2p hybridization opens non-radiative channels, absent in Er. CeO₂'s zero nuclear spin makes it a promising magnetically clean quantum emitter host.

#QuantumEmitters #QuantumMaterials #Research

Tensor Network Methods for Electron-Hole Complexes in Semiconductor Nanoplatelets Beyond Confinement Limits

QTT/DMRG tensor networks solve exciton & trion Schrödinger equations in CdSe nanoplatelets beyond weak/strong confinement regimes, achieving 2048-pt/dimension resolution in megabytes vs. an infeasible 128 TiB required by direct methods.

#TensorNetworks #QuantumMaterials #Nanoplatelets

Doubly Charged Excitons in TMD Bilayers May Enable Non-BCS Superconductivity

Quaternions—bosonic complexes of 1 electron + 3 holes—experimentally observed in TMD bilayers. Confirmed as spin-triplet via magnetic field measurements; their BEC could carry current with zero resistance via a non-Cooper-pair mechanism.

#QuantumMaterials #Superconductivity #News

🚀 Exciting Announcement!
5th World Congress on Materials Science & Nanotechnology!
📅 September 14–15, 2026
📍 Rome, Italy | Hybrid Event
🔗 materialsciencecongress.com

#quantummaterials #photonics #quantumtech #innovations

PhD positions open at CEITEC BUT (deadline 30 Apr 2026). I have a topic on exchange interactions in molecular spin chains, using high-frequency EPR. Topic title: "Quantum phenomena in molecular nanomagnets". Check the link for info:

🔗 lnkd.in/e3-2AuW5

#PhDbrno #QuantumMaterials #MolecularMagnetism

🚀 Exciting Announcement!
5th World Congress on Materials Science & Nanotechnology!
📅 September 14–15, 2026
📍 Rome, Italy | Hybrid Event

🔗 materialsciencecongress.com

#quantummaterials #photonics #ce #inovineconferences

Rice University Links Topology to Electron Interactions in Flat Band Quantum Materials

Rice & Weizmann Institute researchers experimentally confirmed compact molecular orbitals govern quantum critical behavior in kagome metal Ni3In, directly linking flat band topology to electron correlations — opening pathways to high-temperature superconductivity.

#QuantumMaterials #Topology #News

Cycling a vanadium dioxide synaptic-like device at 1 MHz and watching it structurally switch inside an electron microscope. Turns out the phase front moves at running pace. At the nanoscale. In nanoseconds.

www.nature.com/articles/s41...

#NeuromorphicComputing #QuantumMaterials #ElectronMicroscopy

2D Superfluid Plasmon Observed in Cuprate Superconductor BSCCO

MIT physicists used a custom THz near-field microscope with spintronic emitters to directly visualize a 2D superfluid plasmon in BSCCO — a long-predicted collective electron mode below the superconducting gap, never previously observed.

#Superconductivity #QuantumMaterials #News

Join us on 3/26 for a deep dive into the ARO Solid-State Physics (SSP) Program with Dr. Mahesh R. Neupane. shorturl.at/hmbfP

#Physics #QuantumMaterials #UChicago

Tito's Vodka Philanthropy Grants $1.4M to Quantum Materials Research

Love, Tito's CHEERS initiative gave $1.4M to UT Austin's Edoardo Baldini, enabling exotic quantum clock state discovery via atomically thin material prep stations and time-resolved momentum microscopy—aimed at future energy and information technologies.

#QuantumMaterials #ScienceFunding #News

Double-Frustrated Crystal Enables Control of Exotic Quantum Magnetic States

UC Santa Barbara physicists found a rare material where magnetic and electronic bond frustration coexist. Coupling these competing effects via strain could enable control of long-range entangled spin states—key for future quantum technologies.

#QuantumMaterials #QuantumPhysics #News

UH Physicists Set New Ambient-Pressure Superconductivity Record at 151K

Using pressure quenching, University of Houston's TcSUH team achieved 151K superconducting transition at ambient pressure—surpassing the 133K Hg1223 record held since 1993. Published in PNAS, March 2026.

#Superconductivity #QuantumMaterials #News

Tsinghua University Physics Centenary: Quantum Materials, AI Integration, and the Next 100 Years

Tsinghua's physics head Wenhui Duan highlights 100 years of breakthroughs—quantum anomalous Hall effect, topological semimetals, 2D magnetic materials—and plans to engineer functional quantum systems via AI-driven computational materials science.

#QuantumMaterials #QuantumTechnology #News

Polaron and Quasiparticle Engineering in Quantum Materials and Devices Polaron and quasiparticle engineering in quantum materials enables targeted manipulation of excitations, enhancing performance in various technologies.

What if you could control the very building blocks of quantum devices? ⚡️ Discover how polaron and quasiparticle engineering is unlocking new performance in quantum tech and optoelectronics.
www.azoquantum.com/Article.aspx... #QuantumMaterials #NanoTech

Benchmarking Cantilever Torque Magnetometry as a Platform for Characterizing Molecular Qubits: A Case Study on Ni(II) Complexes Precise and experimentally accessible determination of the electronic structure of transition metal complexes remains a challenge in the development of molecular qubits, particularly for leading candi...

🎉 Excited to share our latest publication in JACS
🔬We introduce cantilever torque magnetometry for the determination of the spin Hamiltonian parameters of molecular qubits
This achievement was made possible thanks to an amazing team
pubs.acs.org/doi/10.1021/...
#MolecularMagnetism #QuantumMaterials

High-Temperature Superconductors: Recent Advances in Cuprate, Iron-Based, and Nickelate Systems 2026 High-temperature superconductors (HTS) represent a revolutionary class of materials exhibiting superconductivity at temperatures signi cantly above conventionalsuperconductors [1]. This comprehensive ...

New comprehensive review on High-Temperature Superconductors (HTS) Exploring recent breakthroughs in cuprate, iron-based & nickelate systems. zenodo.org/records/1870... #Superconductors #Physics #QuantumMaterials

Security Verification Read the full article

🤯Beyond known physics! Strontium ruthenate defies explanation—an unconventional superconductor pushing the boundaries of what we understand. ✨ #QuantumMaterials

Source: phys.org/news/2026-02-muon-knight...

Exact Diagonalization: The Most Brutal Method in Quantum Physics Sometimes You Need to Give a Quantum System a Full-Body Scan

When approximations fail, physicists reach for exact diagonalization: the full quantum “body scan.” No shortcuts. No guesses. Just the full spectrum — and results you can truly trust. ⚛️🧮💻

medium.com/science-spec...

#QuantumPhysics #QuantumMaterials #ComputationalPhysics #ExactDiagonalization #HPC

Breakthrough copper alloy achieves unprecedented high-temperature performance A team of researchers has developed a groundbreaking high-temperature copper alloy with exceptional thermal stability and mechanical strength. The research team's findings on the new copper alloy intr...

Nano-copper and copper-oxide (cuprate) based materials are critical in high-temperature superconductivity (HTS) research, with some

www.sciencedaily.com/releases/202...

#Superconductors #Superconductivity #HighTc #ZeroResistance #QuantumMaterials #MRIMagnets

M2S Conference 2026 - M2S 2026

Registration is officially open for M2S 2026!🚀
Join leading researchers, early-career scientists, and industry partners for a week of cutting-edge science on superconductivity!
#M2S2026 #Superconductivity #QuantumMaterials #CondensedMatter #PhysicsConference

Link to registration: m2s-2026.org/home

Avance de nuestros investigadores Antonio Delgado y José Caridad, quienes han revelado nuevas propiedades electrónicas en superredes de moiré de grafeno.
🔗DOI: pubs.acs.org/doi/10.1021/...
🗞️Nota de prensa: saladeprensa.usal.es/node/139690
@usaloficial.bsky.social
#SomosLUMES #QuantumMaterials

Laser Light Rewrites Magnetism in Breakthrough Quantum Material Scientists have demonstrated that light alone can reversibly control magnetism in a topological material. Researchers at the University of Basel and ETH Zurich have found a way to flip the magnetic polarity of an unusual ferromagnet using a laser beam. If the approach can be refined and scaled, it

Laser Light Rewrites Magnetism in Breakthrough Quantum Material #Science #Physics #QuantumPhysics #LaserTechnology #QuantumMaterials #Magnetism

scitechdaily.com/laser-light-rewrites-mag...

#Nanophotonics #QuantumMaterials #PhD #Optics #ResearchExcellence

Updated submission date: The Physica B Award on Condensed Matter 2026 is now accepting applications through Jan 30, 2026.

Topic: Quantum Devices & Quantum Materials. Prize: $2,000 + Perspective Article + 6 months free access.

#PhysicaB #CondensedMatter #QuantumMaterials

Harnessing Light to Control Electrons Recently, a team of researchers investigated a new approach for manipulating electron motion at the femtosecond timescale.

Researchers tested a new approach for manipulating electron motion and shed light on a deeper understanding of light–matter interactions, which could lead to big milestones in #QuantumMaterials research.

See what the findings of their study reveal: https://ow.ly/ucZt50XygrJ

#Spectroscopy

🚨New Review Alert: Time-resolved X-ray scattering is unlocking the ultrafast dynamics of #QuantumMaterials! From exotic orders to nonequilibrium states, this technique offers unprecedented insight into structural, electronic, and magnetic processes 👉https://ow.ly/3hf650XLpYa

Einstein in a Chip: Hidden Geometry Bends Electrons Like Gravity - SciTechDaily A team at UNIGE has uncovered a geometric structure once thought to be purely theoretical at the core of quantum materials, opening the door to major advances in future electronics. How can information be processed almost instantly, or electrical current flow…

Wild to see relativity-inspired ideas show up in solid-state physics: a “hidden geometry” inside some quantum materials may guide electrons the way gravity bends paths in spacetime. If confirmed, it could unlock new knobs for ultra-efficient, fast electronics. #QuantumMaterials #CondensedMatter