7th Conference on Magnonics

Oxnard, California, USA

July 31 - August 4, 2022

Spin waves or magnons hold great promise for quantum and classical information processing due to excellent scalability, tunability and energy-efficiency of magnonic devices. Many aspects of spin waves such as interactions with spin currents, electric fields, phonons, magnetic qubits, and exotic spin textures are active areas of fundamental research in magnetism. The goal of this conference is to bring together researchers from academia, industry and national laboratories working in the fields of magnetic materials, classical and quantum magnonic devices, nanomagnetism and spintronics in order to exchange ideas and forge collaborations in the field of magnonics.


Conference Chairs:

Ilya Krivorotov (University of California, Irvine, USA)

Igor Barsukov (University of California, Riverside, USA)

Local Organizing Committee:

Amanatullah 'Mishu' Khan (University of California, Irvine, USA)

Arezoo Etesamirad (University of California, Riverside, USA)

Mara Mishner (University of California, Irvine, USA)

Rodolfo Rodriguez (University of California, Riverside, USA)

Rundong Jiang (University of California, Riverside, USA)

Scientific Advisory Committee

Adekunle Adeyeye (Durham University, UK)

Antonio Azevedo (UFPE, Brazil)

Sergej Demokritov (University of Munster, Germany)

Chunhui Du (University of California, San Diego, USA)

Ursula Ebels (SPINTEC, Grenoble, France)

Dirk Grundler (EPFL, Switzerland)

Gianluca Gubbiotti (IOM-CNR Perugia, Italy)

Xiufeng Han (Institute of Physics, Chinese Academy of Sciences, China)

Burkard Hillebrands (Technische Universität Kaiserslautern, Germany)

Volodymyr Kruglyak (University of Exeter, UK)

Xiaoqin (Elaine) Li (University of Texas, Austin, USA)

Teruo Ono (University of Kyoto, Japan)

Katrin Schultheiss (Helmholtz-Zentrum Dresden-Rossendorf, Germany)

Andrei Slavin (University of Oakland, USA)

Invited Speakers

Dmytro Afanasiev (Delft University of Technology, Netherlands)

Johan Åkerman (University of Gothenburg, Sweden)

Matthias Althammer (Walther Meissner Institute, Germany)

Andrii Chumak (University of Vienna, Austria)

Vladislav Demidov (Muenster University, Germany)

Sergej Demokritov (Muenster University, Germany)

Chunhui Du (University of California, San Diego, USA)

Aurore Finco (University of Montpellier, France)

Benedetta Flebus (Boston College, USA)

Dirk Grundler (EPFL, Switzerland)

Axel Hoffmann (University of Illinois, Urbana-Champaign, USA)

Benjamin Jungfleisch (University of Delaware, USA)

Andrei Kirilyuk (Radboud Universiteit, Netherlands)

Olivier Klein (SPINTEC, CEA-Grenoble, CNRS, France)

Artem Litvinenko (University of Gothenburg, Sweden)

Hans Nembach (National Institute of Standards and Technology, USA)

Dmitri Nikonov (Intel, USA)

Teruo Ono (Kyoto University, Japan)

Yoshichika Otani (University of Tokyo, Japan)

Katrin Schultheiss (Helmholtz-Zentrum Dresden-Rossendorf, Germany)

Yoichi Shiota (Kyoto University, Japan)

Cheng Song (Tsinghua University, China)

Vitaliy Vasyuchka (Technische Universität Kaiserslautern, Germany)

Xiangyang Wei (University of Groningen, Netherlands)

Mingzhong Wu (Colorado State University, USA)

Hyunsoo Yang (National University of Singapore)

Haiming Yu (Beihang University, China)

Liuyan Zhao (University of Michigan, USA)


"Magnon Computing" by Burkard Hillebrands (Technische Universität Kaiserslautern, Germany)

"Antiferromagnetic Magnonics" by Yaroslav Tserkovnyak (University of California, Los Angeles, USA)

Magnonics 2022 is the 7th in a series of international conferences
fundamentals and applications of magnons

Previous Conferences

Magnonics 2019, Carovigno, Italy

Magnonics 2017, Oxford, United Kingdom

Magnonics 2015, Seeon, Germany

Magnonics 2013, Varberg, Sweden

Magnonics 2011, Recife, Brasil

Magnonics 2009, Dresden, Germany

Technical Categories

Topics for the conference include both fundamental and applied aspects of magnonics and spintronics

  • Magnetization dynamics, damping and switching

  • Magnonic crystals, materials, heterostructures, devices

  • Quantum magnonics

  • Magneto-dynamics in/of spin textures

  • Antiferromagnetic magnonics and spintronics

  • Spin torque switching and nano-oscillators

  • Magnonics and spintronics of 2D materials

  • Spin transport, spin orbitronics, spin caloritronics, and spin mechanics

  • Opto-magnonics and magneto-plasmonics

  • Spin-wave microwave and terahertz devices

  • Novel techniques for spin wave generation, detection, and control

Important Dates

January 1, 2022: Abstract submission and student travel grant application site opens

March 2, 2022: Abstract submission deadline

March 7, 2022: Notification of acceptance

March 7, 2022: Conference registration opens

April 1, 2022: Conference registration deadline

May 10, 2022: Payment deadline

Sunday, July 31, 2022: First day of the Conference

Thursday, August 4, 2022: Last day of the Conference

Conference Sponsors

Qnami is a VC-backed high-tech company with its roots in the Physics Department of the University of Basel in Switzerland. It develops fundamental new technology using quantum mechanics. The control of the state of a single electron enables measurement with a precision that could never be achieved before. The technique is called quantum sensing and Qnami is enthusiastically developing it to improve people’s lives and the world. Extensive academic research and deep knowledge build the ground for all that Qnami does. With this technology, Qnami is redefining the common understanding of precision. Qnami offers an open team culture of mutual respect and intercultural understanding which is both business and scientific minded. Qnami attracts young, multicultural, open and skilled team members, who have a deep passion for the work. www.qnami.ch


Scammers and fraudulent companies may contact you with regards to hotel accommodation, shuttle, food, etc. They may want to extract money or personal information from you. Simply ignore any emails that are not coming from the organizers. Only Ilya and Igor will write to you from their official university addresses.