Format results
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Talk
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Quantum adiabatic speedup on a class of combinatorial optimization problems
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Madelyn Cain Harvard University
- Madelyn Cain
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Towards an artificial Muse for new ideas in Quantum Physics
Mario Krenn Max Planck Institute for the Science of Light
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Matchgate Shadows for Fermionic Quantum Simulation
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Kianna Wan Alphabet (United States)
- Kianna Wan
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Self-Correcting Quantum Many-Body Control using Reinforcement Learning with Tensor Networks
Friederike Metz L'Ecole Polytechnique Federale de Lausanne (EPFL)
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A Study of Neural Network Field Theories
Anindita Maiti Perimeter Institute for Theoretical Physics
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Representing quantum states with spiking neural networks
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Stefanie Czischek University of Ottawa
- Stefanie Czischek
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Adaptive Quantum State Tomography with Active Learning
Hannah Lange Ludwig-Maximilians-Universität München (LMU)
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Talk
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Topological superconductivity in twisted double-layer high-Tc cuprates: Theory and experimental signatures
Marcel Franz University of British Columbia
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Stacking Induced Spontaneous Polarization in Rhombohedral MoS2
Ziliang Ye University of British Columbia
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Z2 spin liquids in spin-S Kitaev honeycomb model via parton construction
Han Ma Perimeter Institute for Theoretical Physics
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Non-Fermi liquids and quantum criticality in multipolar Kondo systems
Yong-Baek Kim University of Toronto
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Talk
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Quantum Field Theory I - Lecture 221108
PIRSA:22110003 -
Quantum Field Theory I - Lecture 221107
PIRSA:22110002 -
Quantum Field Theory I - Lecture 221102
PIRSA:22110001 -
Quantum Field Theory I - Lecture 221101
PIRSA:22110000 -
Quantum Field Theory I - Lecture 221031
Gang Xu Perimeter Institute for Theoretical Physics
PIRSA:22100057 -
Quantum Field Theory I - Lecture 221028
Gang Xu Perimeter Institute for Theoretical Physics
PIRSA:22100056 -
Quantum Field Theory I - Lecture 221026
Gang Xu Perimeter Institute for Theoretical Physics
PIRSA:22100055 -
Quantum Field Theory I - Lecture 221024
Gang Xu Perimeter Institute for Theoretical Physics
PIRSA:22100054
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Talk
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Relativity - Lecture 221102
PIRSA:22110025 -
Relativity - Lecture 221101
PIRSA:22110024 -
Relativity - Lecture 221031
PIRSA:22100087 -
Relativity - Lecture 221028
PIRSA:22100086 -
Relativity - Lecture 221026
PIRSA:22100085 -
Relativity - Lecture 221024
PIRSA:22100084
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Talk
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Welcoming Remarks
PIRSA:22100114 -
Session 1 - Mykola Semenyakin
Mykola Semenyakin Perimeter Institute for Theoretical Physics
PIRSA:22100115 -
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Talk
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Special Guest Talk - 'Science Opportunities Underground: Neutrinos and Dark Matter'
Arthur B. McDonald Queen's University
PIRSA:22100064 -
Special Guest Talk - 'How to take a picture of a black hole'
Shep Doeleman Harvard University
PIRSA:22100066 -
Perimeter Researcher Talk - 'CHIME: the Canadian Hydrogen Intensity Mapping Experiment'
Kendrick SmithPIRSA:22100067 -
Panel Session: Luck vs Grit
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Asimina Arvanitaki Perimeter Institute
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Arthur B. McDonald Queen's University
- Katie Mack
PIRSA:22100068 -
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Special Guest Talk - 'The serendipitous road to a Nobel prize'
Anthony Leggett University of Illinois Urbana-Champaign
PIRSA:22100069 -
Perimeter Researcher Talk - 'Measurement as a shortcut to long-range entangled matter'
Timothy Hsieh Perimeter Institute for Theoretical Physics
PIRSA:22100070 -
Special Guest Talk - 'From nonlinear optics to high intensity laser physics'
Donna Strickland University of Waterloo
PIRSA:22100071
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Talk
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Welcome & Opening Remarks
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Celine Zwikel Perimeter Institute
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Luca Ciambelli Perimeter Institute for Theoretical Physics
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Review Talk: A primer on the covariant phase space formalism
Adrien Fiorucci Technische Universität Wien
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Review Talk: A primer on the covariant phase space formalism cont.
Adrien Fiorucci Technische Universität Wien
PIRSA:22100003 -
Review Talk: An introduction to coadjoint orbits
Andrea Campoleoni University of Mons
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Review Talk: An introduction to coadjoint orbits cont.
Andrea Campoleoni University of Mons
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Gong Show
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Arnaud Delfante University of Mons
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Giovanni Canepa Aix-Marseille University
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Gloria Odak Charles University
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monireh ahmadpour University of Tehran
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Florian Ecker Technische Universität Wien
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Local Holography and corner symmetry: A paradigm for quantum gravity
Laurent Freidel Perimeter Institute for Theoretical Physics
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Residual gauge symmetries in the front form
Sucheta Majumdar École Normale Supérieure de Lyon (ENS Lyon)
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Talk
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Quantum Theory - Lecture 221004
PIRSA:22100099 -
Quantum Theory - Lecture 221003
PIRSA:22100098 -
Quantum Theory - Lecture 220928
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:22090043 -
Quantum Theory - Lecture 220927
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:22090042 -
Quantum Theory - Lecture 220926
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:22090041 -
Quantum Theory - Lecture 220923
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:22090040 -
Quantum Theory - Lecture 220921
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:22090039 -
Quantum Theory - Lecture 220919
Dan Wohns Perimeter Institute for Theoretical Physics
PIRSA:22090038
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Talk
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Classical Physics - Lecture 221004
PIRSA:22100059 -
Classical Physics - Lecture 221003
PIRSA:22100058 -
Classical Physics - Lecture 220928
PIRSA:22090055 -
Classical Physics - Lecture 220927
PIRSA:22090054 -
Classical Physics - Lecture 220926
PIRSA:22090053 -
Classical Physics - Lecture 220923
Meenu Kumari National Research Council Canada (NRC)
PIRSA:22090052 -
Classical Physics - Lecture 220919
Meenu Kumari National Research Council Canada (NRC)
PIRSA:22090051 -
Classical Physics - Lecture 220916
PIRSA:22090050
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Talk
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Welcome & Opening Remarks
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Asimina Arvanitaki Perimeter Institute
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Junwu Huang Perimeter Institute for Theoretical Physics
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Davide Racco ETH Zurich
PIRSA:22090001 -
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Standard Model & EDM, g-2
Jesse Thaler Massachusetts Institute of Technology (MIT)
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5th forces and astrophysical probes
Peter Graham Stanford University
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Atom interferometry, atomic clocks
Jason Hogan Stanford Law School - The Bill Lane Centre for the American West
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Non thermal DM/Misalignment
Giovanni Villadoro The Abdus Salam International Centre for Theoretical Physics (ICTP)
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Non thermal DM/Misalignment
Giovanni Villadoro The Abdus Salam International Centre for Theoretical Physics (ICTP)
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Atom interferometry, atomic clocks
Jason Hogan Stanford Law School - The Bill Lane Centre for the American West
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Talk
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Introduction & Welcoming Remarks
James Shaffer Quantum Valley Ideas Laboratories
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Perimeter Greeting
Paul Smith Perimeter Institute for Theoretical Physics
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Indirect spin-spin interactions with Rydberg molecules
Hossein Sadeghpour Harvard University
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Polyatomic ultralong range Rydberg molecules
Rosario Gonzalez-Ferez University of Granada
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Observation of linewidth narrowing in EIT polarization spectroscopy involving hot Rydberg atoms with Laguerre Gaussian modes
Luis Marcassa Universidade Estadual Paulista (UNESP)
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Talk
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Welcome and Opening Remarks
Kevin Costello Perimeter Institute for Theoretical Physics
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3d Theories and Twists I
Kevin Costello Perimeter Institute for Theoretical Physics
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3d Gauge Theory and Elliptic Stable Envelopes I
Andrei Okounkov Columbia University
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Classical BV Formalism and Topological Quantum Field Theory
Philsang Yoo Seoul National University
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3d B Models and Knot Homology I
Lev Rozansky University of North Carolina at Chapel Hill
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On Boundary VOA's
Davide Gaiotto Perimeter Institute for Theoretical Physics
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3d Gauge Theory and Elliptic Stable Envelopes II
Mykola Dedushenko Stony Brook University
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New Frontiers in Machine Learning and Quantum
This workshop will bring together a group of young trendsetters working at the frontier of machine learning and quantum information. The workshop will feature two days of talks, and ample time for participants to interact and form new collaborations in the inspiring environment of the Perimeter Institute. Topics will include machine learning, quantum field theory, quantum information, and unifying theoretical concepts.
Territorial Land AcknowledgementPerimeter Institute acknowledges that it is situated on the traditional territory of the Anishinaabe, Haudenosaunee, and Neutral peoples.
Perimeter Institute is located on the Haldimand Tract. After the American Revolution, the tract was granted by the British to the Six Nations of the Grand River and the Mississaugas of the Credit First Nation as compensation for their role in the war and for the loss of their traditional lands in upstate New York. Of the 950,000 acres granted to the Haudenosaunee, less than 5 percent remains Six Nations land. Only 6,100 acres remain Mississaugas of the Credit land.
We thank the Anishinaabe, Haudenosaunee, and Neutral peoples for hosting us on their land.
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Quantum Matter Workshop
The goal of this conference is for quantum matter researchers at Perimeter, University of British Columbia, and University of Toronto to share their recent work with each other, to facilitate discussion and collaboration.
Territorial Land AcknowledgementPerimeter Institute acknowledges that it is situated on the traditional territory of the Anishinaabe, Haudenosaunee, and Neutral peoples.
Perimeter Institute is located on the Haldimand Tract. After the American Revolution, the tract was granted by the British to the Six Nations of the Grand River and the Mississaugas of the Credit First Nation as compensation for their role in the war and for the loss of their traditional lands in upstate New York. Of the 950,000 acres granted to the Haudenosaunee, less than 5 percent remains Six Nations land. Only 6,100 acres remain Mississaugas of the Credit land.
We thank the Anishinaabe, Haudenosaunee, and Neutral peoples for hosting us on their land.
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Quantum Field Theory I (2022/2023)
The course starts by looking for a quantum theory that is compatible with special relativity, without assuming fields are fundamental. Nevertheless fields turn out to be a very good, maybe inevitable mathematical tool for formulating and studying such a relativistic quantum theory. The second part of the course introduces the Dirac theory and canonically quantizes it. It also quantizes the Maxwell field theory. The Feynman diagram technique for perturbation theory is developed and applied to the scattering of relativistic fermions and photons. Renormalization of quantum electrodynamics is done to one-loop order.
Prerequisite: PSI Quantum Theory course or equivalently Graduate level Quantum Mechanics and QFT of scalar theory
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Relativity (2022/2023)
This is an introductory course on general relativity (GR). We shall cover the basics of differential geometry and its applications to Einstein’s theory of gravity. The plan is to discuss black holes, gravitational waves, and observational evidence for GR, as well as to cover some of the more advanced topics. -
POSTDOC WELCOME 2022
Join us on Monday October 24 to welcome our new cohort of postdocs at Perimeter Institute at the Postdoc Welcome 2022! Each new postdoc will be given 5 minutes to introduce themselves to the PI Community. The time will be used to tell us a little bit about themselves and to showcase their current research. These presentations are very casual and should not be misconstrued as formal talks. Some discussion will follow the presentations, whereby current PI Residents may have the opportunity to ask questions.
Conference Schedule:
9:30AM - 11AM - short talks session 1 in Sky room.
11:00AM -11:30AM - coffee break in 1st floor Bistro
11:30AM - 1:00PM - short talks session 2 in Sky room.
1:00PM - 2:00PM - group lunch in the Bistro in 2nd floor Bistro (new postdocs, postdoc reps)
2:00PM - 5:30PM - off-site activity (new postdocs, existing postdocs)https://pirsa.org/C22042
Territorial Land Acknowledgement
Perimeter Institute acknowledges that it is situated on the traditional territory of the Anishinaabe, Haudenosaunee, and Neutral peoples.
Perimeter Institute is located on the Haldimand Tract. After the American Revolution, the tract was granted by the British to the Six Nations of the Grand River and the Mississaugas of the Credit First Nation as compensation for their role in the war and for the loss of their traditional lands in upstate New York. Of the 950,000 acres granted to the Haudenosaunee, less than 5 percent remains Six Nations land. Only 6,100 acres remain Mississaugas of the Credit land.
We thank the Anishinaabe, Haudenosaunee, and Neutral peoples for hosting us on their land.
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The Day of Discovery
Join us for a day that celebrates the advance of human knowledge! Come and hear from scientific luminaries responsible for defining the modern landscape of physics and working to transform it in the future. Presentations by Nobel and Breakthrough Prize winners will describe some of the most exciting topics in science today, followed by talks by Perimeter researchers on how these are being pursued now, and culminating with animated panel conversations on how breakthrough science was, is and will be done.
https://pirsa.org/C22040
Territorial Land Acknowledgement
Perimeter Institute acknowledges that it is situated on the traditional territory of the Anishinaabe, Haudenosaunee, and Neutral peoples.
Perimeter Institute is located on the Haldimand Tract. After the American Revolution, the tract was granted by the British to the Six Nations of the Grand River and the Mississaugas of the Credit First Nation as compensation for their role in the war and for the loss of their traditional lands in upstate New York. Of the 950,000 acres granted to the Haudenosaunee, less than 5 percent remains Six Nations land. Only 6,100 acres remain Mississaugas of the Credit land.
We thank the Anishinaabe, Haudenosaunee, and Neutral peoples for hosting us on their land.
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Quantum Gravity Around the Corner
There has been recent activity in looking for new conserved charges and symmetries in gravity, most notably at infinity but also for finite regions. An important question is whether some of these charges and symmetries have physical implications. These charges are evaluated on codimension-2 surfaces called corners, which constitute the main focus of this conference. The goal is to bring together leading experts and promote discussions and exchanges among different approaches to (quantum) gravity.
Territorial Land Acknowledgement
Perimeter Institute acknowledges that it is situated on the traditional territory of the Anishinaabe, Haudenosaunee, and Neutral peoples.
Perimeter Institute is located on the Haldimand Tract. After the American Revolution, the tract was granted by the British to the Six Nations of the Grand River and the Mississaugas of the Credit First Nation as compensation for their role in the war and for the loss of their traditional lands in upstate New York. Of the 950,000 acres granted to the Haudenosaunee, less than 5 percent remains Six Nations land. Only 6,100 acres remain Mississaugas of the Credit land.
We thank the Anishinaabe, Haudenosaunee, and Neutral peoples for hosting us on their land.
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Quantum Theory (2022-2023)
This course on quantum mechanics is divided in two parts:
The aim of the first part is to review the basis of quantum mechanics. The course aims to provide an overview of the perturbation theory to handle perturbations in quantum systems. Time evolution of quantum systems using the Schrodinger, Heisenberg and interaction pictures will be covered. Basics of quantum statistical mechanics for distinguishable particles, bosons, and fermions will be covered. A brief overview of density matrix approach and quantum systems interacting with the environment will be given.
The second part of the course is an introduction to scalar quantum field theory. The Feynman diagram technique for perturbation theory is developed and applied to the scattering of relativistic particles. Renormalization is briefly discussed. -
Classical Physics (2022/2023)
This is a theoretical physics course that aims to review the basics of theoretical mechanics, special relativity and classical field theory, with the emphasis on geometrical notions and relativistic formalism.
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School on Table-Top Experiments for Fundamental Physics
This School aims at bringing together graduate students and junior postdocs, both theorists and experimentalists, who are interested in proposing and realizing new table-top experiments to test fundamental physics. The goal is to allow them to interact and learn from each other, forming a community.
The School will consist of some theoretical lectures for experimentalists, and experimental lectures for theorists. The scope is to offer basic and relevant notions of each field to physicists with a different background, in order to fill some of the gaps of the respective academic curricula.
The theoretical lectures will cover a review of the Standard Model with emphasis on precision tests, such as the search of new long-range forces and of electrical dipole moments. Another main topic will be a focused introduction on Dark Matter, looking at its cosmological production mechanisms, its impact on astrophysics and cosmology, and its laboratory detection.
On the experimental side, the School will cover a range of techniques for probing weak electromagnetic fields, short distance forces, single photons, fundamental electric dipole moments, as well as atom interferometers and optomechanical sensors.Territorial Land Acknowledgement
Perimeter Institute acknowledges that it is situated on the traditional territory of the Anishinaabe, Haudenosaunee, and Neutral peoples.
Perimeter Institute is located on the Haldimand Tract. After the American Revolution, the tract was granted by the British to the Six Nations of the Grand River and the Mississaugas of the Credit First Nation as compensation for their role in the war and for the loss of their traditional lands in upstate New York. Of the 950,000 acres granted to the Haudenosaunee, less than 5 percent remains Six Nations land. Only 6,100 acres remain Mississaugas of the Credit land.
We thank the Anishinaabe, Haudenosaunee, and Neutral peoples for hosting us on their land.
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Cold Atom Molecule Interactions (CATMIN)
In the first edition of the meeting, CATMIN (Cold ATom Molecule INteractions) was a new satellite meeting of ICPEAC devoted to the study of atomic and molecular systems, where long-range interactions and the extreme properties of highly excited electrons produce new physics and lead to new technologies. CATMIN's objective is to strengthen the links between cold atom physics, molecular physics, chemistry and condensed matter physics, so that new concepts and breakthroughs can emerge. Ions, atoms and molecules are naturally made quantum systems that can be controlled with light and low frequency electromagnetic fields, thus lending themselves to precision investigations and use in quantum technologies. The second CATMIN conference will be held a few days before the ICAP, which is a major conference in AMO physics, with the idea that scientists can attend both meetings. The CATMIN meeting will be a two-day conference held at the Perimeter Institute in Waterloo, ON, centered on Rydberg-atom physics, cold ion physics and the interplay between these experimental platforms. Rydberg atom physics is experiencing a renaissance due to the application of the exaggerated properties of highly excited atoms for quantum information and quantum simulation. Rydberg states can even be observed in solids which is a subject of increasing interest. Cold ions, similarly, are exciting for quantum simulation and computing, becoming one of the central platforms in the race to build a quantum computer. Many exciting developments are also in progress in the area of cold-molecules. Long-range interactions open up fields of research such as the photo-association of cold atoms to form ultra-cold molecules, and the excitation of Rydberg molecules demonstrating novel kinds of molecular bonding. Strong long-range interactions in all the systems permit the investigation of the few-body and many-body regimes, including the few- to many-body transition. The conference aims to share the latest developments and results in these exciting fields among the various ICAP communities as well as the broader physics and chemistry communities. Overall, the conference can forward quantum science and the application of quantum science, which furthers these fields of research by concentrating interest to attract people and resources to the field.
Sponsorship for this event has been provided by:
Perimeter Institute will make every effort to host the conference as an in-person event. However, we reserve the right to change to an online program to align with changes in regulations due to the COVID-19 pandemic.
Territorial Land Acknowledgement
Perimeter Institute acknowledges that it is situated on the traditional territory of the Anishinaabe, Haudenosaunee, and Neutral peoples.
Perimeter Institute is located on the Haldimand Tract. After the American Revolution, the tract was granted by the British to the Six Nations of the Grand River and the Mississaugas of the Credit First Nation as compensation for their role in the war and for the loss of their traditional lands in upstate New York. Of the 950,000 acres granted to the Haudenosaunee, less than 5 percent remains Six Nations land. Only 6,100 acres remain Mississaugas of the Credit land.
We thank the Anishinaabe, Haudenosaunee, and Neutral peoples for hosting us on their land.
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