🧲New MQT study shows helium focused ion beam implantation can be used to create spin centres in hexagonal boron nitride, revealing an optimal dose that preserves spin coherence while maximising signal for sensitive quantum magnetic sensing in 2D materials

Read here: doi.org/10.1088/2633-4356/ae4566

New research in MQT!

⚡What is the single particle entropy and heat capacity of a quantum dot holding only a few electrons? This question is addressed by analysing quantised charge states in a dopant atom quantum dot single-electron transistor.

Read more here: doi.org//10.1088/2633-4356/ae5385

Want more clarity as you move through the publishing process? Our guide can support you.
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💻Sussex researchers have discovered dielectric materials that allow much higher voltages on quantum computing microchips, marking a breakthrough for next gen trapped ion quantum computers, and enabling longer on chip qubit storage.

Read here: doi.org/10.1088/2633-4356/ae57f6

#MQT #QuantumComputing

📣 Call for Posters
Share your research at Progress in Quantum Machine Learning (PQML) 2026. Posters welcomed across quantum ML, quantum computing, materials, physics, chemistry & algorithms.
🗓 Deadline: 30 April 2026
📍 Event 10 May 2026 | Beijing + Online
👉 Submit here: https://ow.ly/PYPw50YBMXj

Join us in celebrating exceptional reviewers! 🎉
Each year, our journal editorial teams select recipients for our Outstanding Reviewer Awards - recognising quality, quantity and timeliness of the report they completed. Explore the full list 🙌 https://ow.ly/ENBi50YwRNH
#ResearchIntegrity

A new Letter in Reports on Progress in Physics reveals strong and weak wave turbulence regimes in Bose–Einstein condensates. The work maps a progression from Kolmogorov–Zakharov weak‑wave turbulence to Bogoliubov‑type acoustic turbulence.
Explore now: https://ow.ly/XHct50YyIEG
#openaccess #OA

Join global experts at #PQML2026 — a one-day workshop on the future of quantum machine learning at Tsinghua University and online. Supported by ROPP, QST and MLST.
Be part of the next wave of quantum discovery.
Register now: https://ow.ly/9vuX50YwqgR
#QuantumMachineLearning #QuantumComputing

Celebrating outstanding Editorial Board members 🏆
Discover our #EditorialBoard Excellence #Awards across 8 subject areas, including #QuantumScience.
➡️Full winner list: https://ow.ly/6Mtc50YsLfb

New in Materials for Quantum Technology: a Perspective exploring how the U.S. Center for Quantum Technologies is shaping the future of quantum innovation. ⚛️

Read more: https://ow.ly/9XW150YpQ7h

⚛️MQT authors develop a theory of spin-photon coupling in single quantum dots that, for the first time, captures microscopic effects such as thermal strain. The results highlight unstrained germanium as a key material for switchable spin–photon coupling.

Read here: doi.org/10.1088/2633-4356/ae4087

If the publishing process feels unclear, our free guide can help you move forward with more confidence.
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#AcademicPublishing #ResearchTips

✨ Spring into March with a boost to your peer review confidence. Whether you're new to the process or ready to sharpen your #PeerReview expertise, our free online course has you covered. 📚 Come and take a look 👇https://ow.ly/8Iaf50YlLiT #EarlyCareerResearcher

💻Check out our recent publication in MQT.

This work presents a low-power physical reservoir computing system based on coupled magnetic tunneling junction oscillators, enabling efficient parallel processing for tasks like aeromagnetic compensation.

Read here: doi.org/10.1088/2633-4356/ae35c1

#MQT

🌟 Help uphold the high standards of research we’re proud to publish! Become a peer reviewer and...✔️ advance your career ✔️ stay up to date with the latest developments in your field ✔️ enjoy rewards & recognition.
Discover more ➡️ https://ow.ly/cPFZ50Y1I6G
#PeerReview #EarlyCareerResearcher

NANO is specifically seeking research in #QuantumPhenomena and technology. This section of the journal covers experimental and theoretical aspects of materials, devices and systems where quantum physics plays an essential role.

Sound like a good fit? Find out more 👉 https://ow.ly/39us50Y7xg7

Want clearer steps for publishing your research?
Get your free guide that could help you to avoid errors, choose the right journal and move through each publishing stage with confidence!
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Diagram showing a quantum network with nodes connected by fiber and free-space links, including satellites linking distant nodes.

Quantum entanglement remains one of the most striking features of quantum mechanics. This special issue, honouring Professor Ryszard Horodecki, explores the state of the art and open questions.
Learn more: https://ow.ly/6umU50Y4hTE

🚀 Supercharge your #PeerReview skills with our FREE online course! Explore essential modules, including 📝 peer review fundamentals, paper mills, authorship misconduct, ChatGPT and more... Enhance your expertise today 👉 https://ow.ly/SrJI50Y1HMr #EarlyCareerResearcher #PhysicalScience

Atomic structure and electronic band diagrams showing p orbital contributions in a hexagonal lattice material.

Did you know orbital angular momentum can drive nontrivial topology in insulating systems? Discover this breakthrough in an open-access article by Yueh-Ting Yao et al.: “Orbital topology induced orbital Hall effect in two-dimensional insulators”
https://ow.ly/YJiL50Y4cwt

🔬A new lab‑scale momentum microscopy tool for micro‑ARPES studies of van der Waals materials. Built for precise microscale band‑structure mapping, it provides rapid feedback for materials discovery and screening for device integration.

Read more here: doi.org/10.1088/2633-4356/ae2db3

#MQT

In this work @fitzlab22.bsky.social present a novel way to measure and control two level system defects in materials at any stage of fabrication opening new possibilities for defect-aware fabrication of superconducting circuits & quantum materials

iopscience.iop.org/article/10.1088/2633-4356/ae2b43

🔬 Lab-scale momentum microscopy for micro-ARPES

Opening doors for high-resolution electronic structure mapping in #2DMaterials without large-scale facilities. ✨

📌 Part of our #MQT Focus Issue on #VanderWaalsMaterials for #QuantumTechnologies – still time to submit! 📝

👉 doi.org/10.1088/2633...

Image taken from open access paper showing Figure 2. (a) Armchair-edge energy band with the orbital texture ⟨Lˆz⟩. (b) Edge Lˆz-feature spectrum. (c) Orbital (blue line) and spin (red line) Hall conductivity as a function of the chemical potential in monolayer blue phosphorene.

Did you know orbital angular momentum can drive nontrivial topology in insulating systems? Discover this breakthrough in an open-access article by Yueh-Ting Yao et al.: “Orbital topology induced orbital Hall effect in two-dimensional insulators”.
📚Read it here: https://ow.ly/ZG4850XTu6W

✨Kick off January by mastering peer review. Whether you're starting out or looking to refine your #PeerReview skills, explore our free online course - it's jam packed with comprehensive modules to help you! 📚 Check it out 👉 https://ow.ly/4kOm50XxqkE
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Researchers have confirmed that hBN films grown by MOCVD, CVD, and MBE are viable for quantum sensing. This finding, which holds for films down to 3nm, lays important groundwork for future wafer-scale 2D quantum devices.

Read here: iopscience.iop.org/article/10.1088/2633-4356/ae1edf

#MQT #Quantum

⚡New research from a team from Sandia National Labs reviews how "areal TFETs” are promising to overcome the limits of conventional transistors. They dive into 2D materials, III-V & group-IV approaches, plus modeling strategies to make these devices practical

Read: iopscience.iop.org/article/10.1...

🌡️New research from Drimmer et al. Exploring how growth temperature affects niobium thin films for superconducting circuits, identifying an optimal temperature to reduce TLS and quasiparticle losses—boosting quantum device performance.

Read: iopscience.iop.org/article/10.1088/2633-4356/ae1347

#MQT

💻Exciting research from Joel Q Grim et al. Exploring advances in photonic quantum science, focusing on integrating solid-state light sources on photonic chips for scalable quantum networks and tuning emitters.

Read here: iopscience.iop.org/article/10.1088/2633-4356/ae0dd9

#MQT #QuantumNetworks

⚡Exciting research from Colin J Riggert et al. Showing all-vdW gate stacks (hBN + graphite) enable clean quantum transport in non-vdW materials. InSb nanoribbons exhibit low hysteresis, quantized conductance & ballistic transport.

Read more: iopscience.iop.org/article/10.1088/2633-4356/ae09e7

#MQT