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Labs

The scientific work done at NanoLund is enabled and complemented by our infrastructures Lund Nano Lab, and Lund Nano Characterization Labs. Lund Nano Lab – Myfab Lund – is an open research facility that is available to academic research groups as well as start-ups and company users. Our Facilities Lund Nano Lab (LNL)Lund Nano Characterization Labs (LNCL) Lund Nano Characterization Labs Lund Nano L

https://www.nano.lu.se/labs - 2025-07-19

The GCN Seminar - Photoluminescence

This seminar series is organized by the three nanoscience hubs located in the Copenhagen-Lund area. The aim is to to increase awareness about our mutual capabilities and to inspire collaborations. Below, please find the talk abstracts and short bio of the speakers on the Photoluminescence topic. Within a radius of just 25 km, the Copenhagen-Lund region features three strong hubs for nanoscience, w

https://www.nano.lu.se/GCN-seminar-photoluminescence - 2025-07-19

The GCN Seminar - Soft matter, (life sciences), and scattering methods

This seminar series is organized by the three nanoscience hubs located in the Copenhagen-Lund area. The aim is to increase awareness about our mutual capabilities and to inspire collaborations. This time, we learned how scattering methods can be used to elucidate changes in nanostructures in food during processing, the possibilities offered for users at the CoSAXS beamline, as well as computationa

https://www.nano.lu.se/GCN-seminar-soft-matter - 2025-07-19

Photons

We aspire to be a hub for scientists interested in light-matter interactions in nanoscale materials. The research area concerns light-matter interactions in nanoscale materials. The area includes experimental and theoretical research where electromagnetic radiation from microwaves to X-rays is used as a probe, generated or absorbed by the material. A broad range of methods is employed, from basic

https://www.nano.lu.se/research/photons - 2025-07-19

Mesoscopic Physics Group

From left to right: Drilon, Björn, Peter, Faraj, Morten, and Saulo In the Mesoscopic Physics Group, we are working towards a better understanding of nanoscale systems, where phase coherence meets fluctuations. Our goal thereby is to accelerate and contribute to the development of quantum technologies which make use of intriguing quantum features such as coherence and entanglement. Read more about

https://www.nano.lu.se/mesoscopic-physics-group - 2025-07-19

Annual Meeting 2022

In 2022, the annual meeting was held on 11 October. The theme is Materials – building the world. Star Wars-style luminescence of perovskite microwires with a variable bandgap, by Ivan Scheblykin, Aboma Merdasa, and Ernesto Joselevich. Program chairs Maria Messing and Mattias Borg are putting together an exciting program on the topics: Quantum materials Synthesis and Integration Organic and earth-a

https://www.nano.lu.se/annualmeeting2022 - 2025-07-19

Nobelsymposium NS166: Emerging Quantum Technologies

Scope The birth and development of quantum physics is one of the main scientific achievements of the 20th century. It has led to a revolution in our understanding of almost all aspects of the world around us and forms the basis of essentially all modern physics and chemistry. Advances in quantum physics have also directly or indirectly been responsible for some of the most important technological

https://www.nano.lu.se/NS166_Quantum_Technologies - 2025-07-19

Abstract: Computing – From Bits to Qubits (overview talk)

Speaker: Heike Riel Classical computers which represent information as bits have evolved over many years in an unprecedented way and became ubiquitous in our life. Today these classical technologies based on miniaturization are reaching their limits and new computing paradigms are in quest to reduce power consumption and increase the performance of computation. Two new computing paradigms are emer

https://www.nano.lu.se/abstract-computing-bits-qubits-overview-talk - 2025-07-19

Abstract: Engineering Qubits in Silicon with Atomic Precision

Speaker: Michelle Simmons The realisation of a large-scale error corrected quantum computer relies on our ability to reproducibly manufacture qubits that are fast, highly coherent, controllable and stable. The promise of achieving this in a highly manufacturable platform such as silicon requires a deep understanding of the materials issues that impact device operation. In this talk I will demonstr

https://www.nano.lu.se/abstract-engineering%20qubits - 2025-07-19

Abstract: Topological Superconductivity in Epitaxial Hybrid Materials

Speaker: Charles Marcus This talk will examine phase control in hybrid semiconductor superconductor materials, including frustration in periodic arrays, phase bias in planar Josephson junctions, and fluxoid quantization in full-shell nanowires. When phase can induce topological superconductivity is discussed and demonstrated.

https://www.nano.lu.se/abstract-topological-superconductivity-epitaxial-hybrid-materials - 2025-07-19

Abstract: Information thermodynamics (overview talk)

Speaker: Masahito Ueda Information thermodynamics incorporates quantum measurement into thermodynamics, thereby enabling one to evaluate the cost of measurement and that of information erasure in information processing of thermodynamics [1]. The total cost of measurement and information erasure resolves the paradox of Maxwell’s demon. Information thermodynamics also unifies the modern fluctuation

https://www.nano.lu.se/abstract-information-thermodynamics-overview-talk - 2025-07-19

Abstract: Quantum technologies need a quantum energy initiative

Speaker: Alexia Auffèves Quantum technologies are currently the object of high expectations from governments and private companies, as they hold the promise to shape safer and faster ways to extract, exchange, and treat information. However, despite its major potential impact for industry and society, the question of their energetic footprint has remained in a blind spot of current deployment stra

https://www.nano.lu.se/abstract-quantum-technologies-need-quantum-energy-initiative - 2025-07-19

Abstract: Precision measurements of correlated electron materials

Speaker: Jörg Wrachtrup Spins in wide band gap semiconductors are a leading contender in various areas of quantum technology. Most notably they have been established as a novel tool for nanoscale sensing, major hardware for long distance quantum entanglement, as well as small scale quantum registers for quantum computing. I will present the use of spins in in those areas [1,2,3]. Specifically, I w

https://www.nano.lu.se/abstract-precision-measurements-correlated-electron-materials - 2025-07-19

Abstract: Privacy for the paranoid ones - a quantum path towards the ultimate limits of secrecy

Speaker: Artur Ekert Among those who make a living from the science of secrecy, worry and paranoia are just signs of professionalism. Can we protect our secrets against those who wield superior technological powers? Can we trust those who provide us with tools for protection? Can we even trust ourselves, our own freedom of choice? Recent developments in quantum cryptography show that some of these

https://www.nano.lu.se/abstract-privacy-paranoid-ones-quantum-path-towards-ultimate-limits-secrecy - 2025-07-19

Abstract: From Bell non-locality to quantum communication and back to network non-locality

Speaker: Nicolas Gisin Quantum information science emerged from studies on the foundations of quantum physics. I’ll illustrate this, starting from Bell inequalities all the way to commercial Quantum Key Distribution and Quantum Random Number Generator chips. But the story doesn’t stop here. Quantum information science, in turn, feeds back into the foundations, asking questions like, e.g., “how doe

https://www.nano.lu.se/abstract-bell-non-locality-quantumcommunication - 2025-07-19

Abstract: Quantum Computation, Error Correction, and Simulation with Superconducting Qubits and Bosonic Modes (overview talk)

Speaker: Steve Girvin This talk will present an overview of systems comprised of both qubits and oscillators. Such hybrid platforms offer powerful architectures with novel gates and instruction sets for quantum computation and hardware-efficient quantum error correction now going beyond the break-even point. In addition, recent experiments on quantum simulations of physical models containing boson

https://www.nano.lu.se/abstract-quantum-computation-error-correction-and-simulation-superconducting-qubits-and-bosonic - 2025-07-19

Abstract: System testing of a quantum computer

Speaker: John Martinis In order to specify a quantum computer technology, it is important to describe not just the qubit type and architecture, but qubit errors.  This is because qubits are fundamentally error-prone, and computational power can only occur if the errors are small enough, roughly 2%.  I will describe how the quantum supremacy experiment from Google was able to measure system error r

https://www.nano.lu.se/abstract-system-testing-quantum-computer - 2025-07-19

Abstract: Quantum Computing with Atoms

Speaker: Chris Monroe Trapped atomic ions are a leading physical platform for quantum computers, featuring qubits with essentially infinite idle coherence times and the highest purity quantum gate operations. Such atomic clock qubits are controlled with laser beams, allowing densely-connected and reconfigurable universal gate sets. The path to scale involves concrete architectural paths based on w

https://www.nano.lu.se/abstract-quantum-computing-atoms - 2025-07-19