LeviNet-OIST Workshop "Schrödinger Cats - The Quest to Find the Edge of the Quantum World"

LeviNet-OIST Workshop "Schrödinger Cats - The Quest to Find the Edge of the Quantum World"
Monday December 9th, 2024 to Friday December 13th, 2024 (All day)
Main Campus, Seminar Room B250 (Center Building)

Description

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Quantum Catz

 

Dec 9 to Dec 13 2024, Okinawa, Japan

The generation of macroscopic quantum superpositions of massive objects have fascinated scientists since Schrodinger but scientific developments now promise that such superpositions may become possible in the very near future.

This meeting will focus on the science of macroscopic quantum superpositions - or more commonly known as Schrodinger Cats. In the 1930s Erwin Schrodinger made a thought experiment to test the boundaries of quantum mechanics. He asked if it could be possible, not only in principle, but also in practice, to make a quantum superposition of a large-massive object (in his case a cat), in two very different positions. As far as we know - this should be possible - but extremely challenging experimentally. If one can even achieve this for nanometer (or larger), sized particles one opens the possibility of tackling many fundamental questions e.g. how does quantum interact with gravity, is there some other addition to quantum mechanics which prevents the formation of such large-massive quantum superpositions? Can such massive superpositions be used for ultrasensitive sensors.

This meeting will bring experimentalists and theorists together to discuss recent science (experiment and theory), towards generating such quantum superpositions.

This workshop is hosted by the  Okinawa Institute of Science and Technology Graduate University, Japan supported by the EPSRC Project Levinet.

Organising Committee

The organising committee consists of (alphabetical last name):

Registration Closed

If you have any queries, please email us at qcatz@oist.jp

 

Click here for the:

DRAFT PROGRAM

 

Speakers


Geraci

Prof Andrew Geraci
Associate Prof at Northwestern University in the USA whose interests cover the experimental levitation of nanoparticles for sensing of weak forces and their application for the search for new forces and dark matter.
Link

Research Interests: Trapped particles, optical trapping, levitated motion, feedback cooling, exotic forces, dark matter
Google Scholar

Mazumdar

Prof Anupam Mazumdar
Professor at the Faculty of Science and Engineering at the University of Groningen, Netherlands. Theoretical scientist working on the interaction of quantum science with gravity and gravitional fields - testing quantum gravity via quantum entanglement in the laboratory.
Link

Research Interests: Quantum gravity, quantum mechanics, quantum optics, optomechanics, entanglement, matter-wave interferometry.
Google Scholar

Stickler

Prof Ben Stickler
Heisenberg Professor at the University of Ulm, Germany. Focus is on the theory of levitated systems and macroscopic quantum science.
Link

Research Interests: quantum rotations of nanoparticles, levitated particle electromechanics, decoherence of levitated systems.
Google Scholar

Milburn

Prof Andrea Morello          
Professor at the University of New South Wales, Australia. Experimentalist with a focus on solid-state quantum information processing and Schrodinger cats of nuclear spins.
Link

Research Interests: Solid state qubits, silicon, quantum dots.
Google Scholar

Morley

Prof Gavin Morley
Professor at the Physics Department of Warwick University, UK. Focuses on the theory and experiment of uses of impurities in diamond for uses in quantum information processing and fundamental studies in quantum science.
Link

Research Interests: diamond, gravity and quantum, magnetic levitation, quantum sensing, quantum computing.
Google Scholar

Fuentes

Prof Ivette Fuentes
Professor at the School of Physics and Astronomy, University of Southhampton, UK. Focuses on physics at length scales where both gravity and quantum mechanics become important.
Link

Research Interests: Space based research in quantum and gravity, quantum technologies for fundamental research, the overlap of general relativity and quantum.
Google Scholar

Teufel

Dr John D. Teufel
Is an experimentalist at the Applied Physics Division of NIST, at Boulder, USA. They focus on precision cryogenic measurements and quantum macroscopics including the development and metrology of superconducting qubits, optomechanical circuits and Josephson parametric technology.
Link

Research Interests:
Superconducting quantum hardware, quantum optics, quantum optomechanics, macroscopic quantum systems.
Google Scholar

Yamamoto

Prof Kazuhiro Yamamoto
Professor at the Department of Physics in Kyushu University in Japan with a focus on the gravitational interaction between quantum systems.
Link

Research Interests: Cosmology, gravitational theory, quantum field theory, astrophysics, quantum information science.
Google Scholar

Arndt

Prof Markus Arndt
Professor at the University of Vienna, Austria who focuses on experiments in matter wave interferometry, optomechanics, quantum sensors and quantum technologies for fundamental science.
Link

Research Interests: Macroscopic quantum systems, quantum interference, matter waves, optomechanical systems.
Google Scholar

Aspelmeyer

Prof Markus Aspelmeyer
Professor at the University of Vienna, Austria and in the Austrian Academy of Sciences. Focuses on quantum optomechanics and precision tests of gravity and quantum gravity.
Link

Research Interests:
Levitated systems, optomechanics, cooling, precision measurements of gravity
Google Scholar

Silanpaa

Prof Mika Sillanpää
Professor at Alto University in Finland. Focus on the experimental quantum-mechanical behavior of macroscopic moving objects, using micro- and nanomechanical resonators and superconducting qubits.
Link

Research Interests: quantum nanomechanics, motional quantum systems, superconducting electromechanics,  microwave optomechanics.
Google Scholar

Kim

Prof Myungshik Kim
Professor at the Department of Physics, Imperial College London, UK. Focus on the theory of quantum systems, including quantum simulations and fundamental tests of quantum science.
Link

Research Interests: quantum optics, theoreticalquantum information science, decoherence, quantum simulations.
Publications

 

Kim

Dr Nadine Meyer
Researcher at the NanoPhotonics Systems Laboratory, ETH Zurich, Switzerland, working on levitation optomechanics with nanoparticles with a focus on cavity optomechanics and inertial sensing.
Link

Research Interests: experimental optical levitation, optomechanics, inertial sensing
Publications

 

Nicolas Didier

Dr Nicolas Didier
Device Theory team Lead at Alice & Bob, Paris, France.
Focus on quantum computing with superconducting circuits and quantum error correction with dissipative cat qubits.
Link

Research Interests: Circuit quantum electrodynamics, quantum information science, bosonic codes.
Publications

RomeroIsart

Prof Oriol Romero-Isart
Professor the University of Innsbruck, Austria and the Austrian Academy of Sciences. Focus on the theory of macroscopic quantum superpositions.
Link

Research Interests: Quantum Information Science, quantum computing, quantum communications
Google Scholar

Northrup

Prof Tracy Northrup
Professor of Experimental Physics at the University of Innsbruck, Austria. Focus on optical cavities and trapped ions as tools to explore quantum-mechanical interactions between light and matter, with applications for quantum networks, sensors, and quantum simulations.
Link

Research Interests: Trapped ions and particles, quantum interfaces between light and matter
Google Scholar

Chu

Prof Yiwen Chu
Professor at the ETH Zurich. Focus on experiments in quantum acoustics coupling phonons and discrete systems in matter. 
Link

Research Interests: Quantum acoustics, coupling of phonons to spins and superconducting quantum circuits,
Google Scholar

Code of Conduct

 

We are committed to making our workshops (workshop(s) organized by OIST, hereinafter “our workshop(s)”) an inclusive space for sharing ideas and knowledge. We will not tolerate disrespectful communication, discrimination, harassment, or bullying in any form. As such, all participants attending our workshops are required to comply with this Code of Conduct. To provide all participants the opportunity to benefit from our workshops, we at OIST are dedicated to a positive, safe and harassment-free experience. Harassment in any form is specifically prohibited.

What is Harassment?

Harassment involves continued antisocial or unreasonable actions that violate a reasonable person’s personal rights and/or dignity and cause mental suffering, and thus worsen the person’s environment or make him/her anxious about participation. Behavior that is acceptable to one person may not be acceptable to another, so we ask that you use discretion to be sure that respect is communicated. Harassment intended in a joking manner nevertheless constitutes unacceptable behavior. Speech that is not welcomed or that is personally offensive, whether it is based on gender, age, sexual orientation, mental or physical disability, ethnicity, national origin, religion etc. will not be tolerated.

If you are being harassed, notice that someone else is being harassed, or have any other concerns, please bring this to the immediate attention of the organizers. If you wish to report an issue concerning the organizers, you can contact the Conference and Workshop Section directly and submit a confidential report by sending an email to workshop-codeofconduct@oist.jp or submitting a report through the webform. All complaints will be taken seriously and responded to by the Provost promptly. Confidentiality will be maintained to the extent that it does not compromise the rights of others. Individuals found in breach of this Code of Conduct will be dismissed from the workshop immediately. Retaliation for reporting harassment is also a violation of Code of Conduct, as is reporting an incident in bad faith.

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