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Posted By Gina Gunaratnam,
Monday 8 October 2018
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The Plasma Physics Division of the European Physical Society (EPS PPD) opens calls for its 2019 prizes.
- Call for nominations for the 2019 EPS Hannes Alfvén Prize.
Deadline: November 2nd, 2018. More information here.
- Call for nomination for the 2019 EPS Plasma Physics Innovation Prize.
Deadline: November 15th, 2018. More information here.
- Call for nomination for the 2019 EPS Plasma Physics Division PhD Research Award.
Deadline: December 7th, 2018. More information here.
- Call for nominations for the 2019 Dendy Europe-Asia Pacific Award for Outstanding Research Collaboration in Plasma Physics.
Deadline: January 18th, 2019. More information here.
For details about the prizes and the EPS PPD, please visit the division's website.
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Posted By Gina Gunaratnam,
Monday 28 May 2018
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The call for nomination for the Young Scientist Prize of the Atomic, Molecular, and Optical Physics Division of the EPS is open.
Deadline for nominations is November, 15th 2018.
Details can be found in the pdf below.
 Download File (PDF)
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Posted By Administration,
Monday 12 June 2017
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The 2017 EPS High Energy and Particle Physics Division prizes have been announced. The six winners will be presented during the EPS HEP2017 conference, in Venice, from 5-12 July. The prize ceremony is scheduled on 10 July.
The 2017 High Energy and Particle Physics Prize of the EPS for an outstanding contribution to High Energy Physics is awarded to Erik H.M. Heijne, Robert Klanner, and Gerhard Lutz “for their pioneering contributions to the development of silicon microstrip detectors that revolutionised high-precision tracking and vertexing in high energy physics experiments".
The 2017 Giuseppe and Vanna Cocconi Prize for an outstanding contribution to Particle Astrophysics and Cosmology is awarded to Rainer Weiss, Kip S. Thorne and Barry C. Barish “for their pioneering and leading roles in the LIGO observatory that led to the direct detection of gravitational waves, opening a new window to the Universe.”
The 2017 Young Experimental Physicist Prize of the High Energy and Particle Physics Division of the EPS for outstanding work of a young physicist in the field of Particle Physics and/or Particle Astrophysics is awarded to Xin Qian “for his key contributions to the Daya Bay Reactor neutrino experiment that led to the measurement of the neutrino mixing angle θ13.”
The 2017 Gribov Medal for outstanding work by a young physicist in Theoretical Particle Physics and/or Field Theory is awarded to Simon Caron-Huot “for his ground-breaking contributions to the understanding of the analytic structure of scattering amplitudes and their relation to Wilson loops.
The 2017 Outreach Prize of the High Energy and Particle Physics Division of the EPS for an outstanding outreach achievement connected with High Energy Physics and/or Particle Astrophysics is awarded to Michael Hoch “for initiatives highlighting the conceptual and physical beauty of high-energy physics, and the inspirational qualities that are common to both Art and Science.”
A 2017 Special Prize of the EPS High Energy and Particle Physics Division of the EPS is awarded to René Brun “for his outstanding and original contributions to the software tools for data management, detector simulation, and analysis that have shaped particle and high energy physics experiments for many decades.”
More information
- EPS HEP conference: http://eps-hep2017.eu/
- EPS HEPP Division: https://eps-hepp.web.cern.ch/
- All recipients with short citations
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Posted By Administration,
Wednesday 31 May 2017
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MULHOUSE, [29 May 2017] – The European Physical Society is delighted to announce the 2017 winners of its two most prestigious prizes in Quantum Electronics and Optics. These prizes, awarded only once every two years, recognize the highest level of achievements in fundamental and applied research in optical physics. The awards will be presented in a special Plenary Ceremony on Tuesday, June 27, 2017 during the Conference on Lasers and Electro-Optics Europe (CLEO®/Europe) and the European Quantum Electronics Conference (EQEC), held in Munich, Germany.
2017 Prize for Fundamental Aspects of Quantum Electronics and Optics: Niek F. van Hulst
The 2017 Prize for Fundamental Aspects of Quantum Electronics and Optics is awarded to Prof. Niek van Hulst, ICREA research professor at ICFO, The Institute of Photonic Sciences, Barcelona, Spain. The Prize is awarded to Professor van Hulst “For pioneering contributions to nano-optics and its applications to molecular spectroscopy and to ultrafast light-matter interactions.”
Niek van Hulst studied Physics and Astronomy (BSc 1978) and Experimental Physics (MSc 1981) at the University of Nijmegen, where he also obtained a PhD in Molecular & Laser Physics 1986. He was researcher and assistant professor at the University of Twente. He became full professor in Applied Optics at the MESA+ Institute for Nanotechnology of the University of Twente in 1997, where his research fields included nanophotonics, optical scanning probe technology and single molecule detection. In 2005 he moved as ICREA research professor and senior group leader to the Institute of Photonic Sciences (ICFO) in Barcelona. There he performed ground-breaking research on the control of light interaction both on the nanometre and the femtosecond scale. Particularly notable achievements include the first demonstration of directional emission from a single molecule coupled to a nano-antenna, the confinement of light down to 20 nm and applications to high resolution imaging, an optical TV-antenna driven by a single quantum dot and ultrafast coherent control of single molecules. Current research topics are the emission control, nano‐focusing and nanoscale imaging by nano‐antenna probes in controlled proximity to single photon emitters and the coherent control of molecular dynamics and nanoscale antenna fields by phase controlled excitation with few‐fs broad-band pulses.
Niek van Hulst heads the academic program of ICFO and is a coordinator of the Spanish CONSOLIDER network NanoLight.es. He is recipient of the European Science Award of the Körber Foundation 2003 and the City of Barcelona’s science prize Premi Ciutat 2010. He published about 230 papers in refereed journals and is a fellow of the OSA. He was awarded two ERC Advanced Investigator Grants in 2010 and 2015 and a Proof of Concept Grant 2016.
2017 Prize for Applied Aspects of Quantum Electronics and Optics: Victor Malka
The 2017 Prize for Applied Aspects of Quantum Electronics and Optics is awarded to Prof. Victor Malka, CNRS research director at the Laboratoire d’Optique Appliquée, Palaiseau, France and Professor at the Weizmann Institute for Science, Rehovot, Israel. The Prize is awarded to Professor Malka “For pioneering research using ultra-high intensity lasers for laser-plasma accelerators and their applications.”
Victor Malka graduated in physics from the University of Paris XI-Orsay and did his PhD in atomic and plasma physics at the Ecole Polytechnique (1987-90). He is a CNRS research director at Laboratoire d’Optique Appliquée (ENSTA-CNRS-Ecole polytechnique), and since 2015 a Professor at the Weizmann Institute for Science. He has also been Professor at Ecole Polytechnique (2003-2015). Victor Malka’s research interests include different topics in atomic physics, inertial fusion, and laser plasma interaction. His current works is mainly devoted to the fields of relativistic plasmas and laser plasma accelerators, in which he made several breakthrough contributions. He pioneered the fundamental physics and new technology of compact particle accelerators based on the interaction of ultra-intense laser with plasma to support electric fields exceeding TV / m. Particular achievements are the demonstration of the new regime of acceleration based on “forced laser wakefields”, the demonstration of the bubble regime allowing the production of quasi-monoenergetic energy beams and the demonstration of the first controlled injection of electron bunches in laser accelerators. More recently, he has developed new gamma ray and X-ray sources and is promoting laser accelerators for medical applications. He contributed to the creation of a spin-off company, SourceLAB, dedicated to targetry and compact gamma ray sources for non-destructive material inspection.
He has published about 340 articles and has been invited to more than 175 international conferences. He got numerous national and international prizes including in 2017 the Julius Springer prize and the F. Holweck prize from the SFP and IOP. He obtained two Advanced and two Proof of Concept grants from ERC and has coordinated many European projects structuring the laser, plasma and accelerators communities.
Background Information on EPS-QEOD
The European Physical Society provides an international forum for physicists and acts as a federation of national physical societies. Founded in 1968, the EPS plays a leading role in both scientific and policy activities within the community of European physicists. The Quantum Electronics and Optics Division (QEOD) of the EPS acts as a focal point for European research in optics and photonics through its wide range of strategic activities, sponsorship and conference organisation. In addition to the major awards described above, it also awards Young Researcher (Fresnel) and PhD Student Prizes, which will be announced shortly. See qeod.epsdivisions.org
Contacts:
Thorsten Ackemann
Chairman of Quantum Electronics and Optics Awards Committee 2017
thorsten.ackemann@strath.ac.uk
Luc Bergé
Chair of the Quantum Electronics and Optics Division of EPS
luc.berge@cea.fr
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Posted By admin,
Thursday 11 May 2017
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The Statistical and Nonlinear Physics Division (SNPD) of the European Physical Society (EPS) calls for nominations for two newly created prizes of the Division:
1. EPS Statistical and Nonlinear Physics Prize
The EPS Statistical and Nonlinear Physics Prize will be awarded for outstanding research contributions in the area of statistical physics, nonlinear physics, complex systems and complex networks. The prize winner will have made ground-breaking and agenda setting contributions for the development of this field. The prize can be shared by up to 3 persons. The prize consists of a medal and a cash sum. Prize winners can have any nationality.
2. EPS-SNPD Early Career Prize
This prize will be awarded to an early career scientist (defined as having obtained his/her PhD less than 6 years ago
at the time of nomination) who has made outstanding research contributions to an area of statistical physics, nonlinear physics, complex systems, or complex networks, as evidenced by a top quality and highly cited paper in an international journal. The prize can be shared by up to 2 persons. The prize consists of a medal and a cash sum. Prize winners can have any nationality.
Please send your nomination to c.beck@qmul.ac.uk with the subject header "EPS-SNPD prize nomination", attaching a brief
description of the research contribution of the candidate (1 page maximum, plus a list of up to 6 key publications).
Deadline for nominations for the 2017 prizes is 15 June 2017.
The prize selection committee consists of the current board members of the Statistical and Nonlinear Physics Division of EPS in consultation with external experts.
Further information is available at the website of the Statistical and Nonlinear Physics Division of EPS.
Christian Beck
Chairman of the Statistical and Nonlinear Physics Division, EPS
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Posted By Gina Gunaratnam,
Monday 13 March 2017
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The 2017 Alfvén prize is awarded to Ksenia Aleksandrovna Razumova, from the Kurchatov Institute (Moscow, Russia), for
“obtaining, for the first time, a macroscopically stable plasma column in a tokamak configuration; this led to the world-wide programme of experimental exploration and development of the tokamak concept for magnetic confinement fusion”.
The 2017 Innovation award is going to Michel Moisan, from the Université de Montréal (Québec, Canada), for
“pioneering contributions to the development and understanding of microwave plasma sources and their applications to materials processing, healthcare and environmental protection”.
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Posted By Administration,
Thursday 26 January 2017
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The Quantum Electronics and Optics Division (QEOD) of the European Physical Society (EPS) is soliciting nominations for the biennial Quantum Electronics and Optics Prizes, Fresnel Prizes and Thesis Prizes, which will be presented at the 2017 Edition of the CLEO/Europe-EQEC Conference in Munich, Germany, between Sunday 25 June and Thursday 29 June 2017.
Nominations are to be received on line by March 24th, 2017 at the latest.
EPS Quantum Electronics & Optics Prizes
Two Quantum Electronics & Optics prizes are awarded for outstanding contributions to quantum electronics and optics. There is one prize for fundamental aspects and another one for applied aspects. Each Prize winner will receive a medal and 5000 Euro.
Fresnel Prizes 2017
Two EPS-QEOD prizes will be awarded for outstanding contributions to quantum electronics and optics made by young scientists before the age of 35 (as of December 31st, 2017). There is one prize for fundamental aspects and one prize for applied aspects. The prize winners will each receive a medal and 2000 Euro.
EPS-QEOD Thesis Prizes 2017
Four EPS/QEOD prizes will reward excellence in PhD research and scientific communication in quantum electronics and optics related to a PhD thesis defended in the period June 2015 - June 2017. The prize winners are each to receive a diploma and 1000 Euro.
On line Submission
All material must be prepared in English and combined into either a single consolidated PDF file or a ZIP archive.
Please click the links below to access the submission site:
http://qeod.epsdivisions.org/QEOD%20Prizes/open-nominations
On behalf of the European Physical Society - Quantum Electronics and Optics Division
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Posted By Administration,
Thursday 26 May 2016
Updated: Thursday 26 May 2016
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The EPS Plasma Physics Division (EPS PPD) recognises outstanding research in plasma physics with several prizes.
The 2016 Hannes Alfvén Prize is awarded to
- Sergei Bulanov, National Institute for Quantum and Radiological Science and Technology, Japan and A.M. Prokhorov, Institute of General Physics of Russian Academy of Sciences, Russia and
- Hartmut Zohm, Max Planck Institute for Plasma Physics, Germany
“for their experimental and theoretical contributions to the development of large-scale next-step devices in high-temperature plasma physics research”.
The 2016 EPS Plasma Physics Innovation Prize is awarded to
- Klaus-Dieter Weltmann Leibniz Institute for Plasma Science and Technology, Germany and
- Thomas von Woedtke, Leibniz Institute for Plasma Science and Technology, Germany
“for their pioneering work in the field of plasma medicine”.
The 2016 EPS Plasma Physics Division PhD Research Award goes to
- Bastien Bruneau (LPICM, France) for his PhD thesis on the “control of radio frequency capacitively coupled plasma asymmetries using Tailored Voltage Waveforms”,
- Arnaud Colaitis (CELIA, France) for his PhD thesis on a “multiscale description of the Laser-Plasma Interaction, application to the physics of shock ignition in Inertial Confinement Fusion” and
- Natasha Jeffrey (U. Glasgow, United Kingdom) for her PhD thesis on the “spatial, spectral and polarization properties of solar flare X-ray sources”.
The 2016 APS-EPS Landau Spitzer Award is awarded to
- John Berkery (Columbia University, USA),
- Steven Sabbagh (Columbia University, USA),
- Yueqiang Liu (CCFE, UK), and
- Holger Reimerdes (EPFL, CH)
“for their seminal joint research providing key understanding and quantitative verification of global mode stability in experimental high performance tokamak plasmas, based on drift-kinetic MHD theory, and made possible by strong and essential partnership between Europe and the USA”.
The prize ceremony will take place during the annual conference of the Division that will take place in Leuven (Belgium) from 4-7 July 2016. Click here for details about the conference.
More information can be found on the website of the EPS Plasma Physics Division.
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Posted By Administration,
Tuesday 24 May 2016
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Dear Colleagues,
The postdeadline submission for the Europhoton 2016 is now open and possible until Friday, July 1st, 08:00 PM (GMT+1, local time on site). Only oral submissions will be accepted.
For postdeadline paper submission, topical information and preliminary program, please visit the offical site of the conference: http://www.europhoton.org
Europhoton 2016 will bring together a multi-disciplinary group of world-renowned researchers and scientists, industrials, and students to discuss the latest breakthroughs in the field. The conference will feature high-quality scientific presentations and invited speakers from a wide range of topics, including:
SOLID STATE LASERS
Keynote Speaker:
Scott Diddams, NIST, USA
Advances in optical frequency combs and their applications
Invited Speakers:
Dietmar Kracht, Lazerzentrum Hannover, Germany
High-power single-mode cw lasers for gravitational wave detection
Xavier Délen, Institute of Optics, France
High-power single-crystal fiber amplifiers
Guina Mircea, Tampere University, Finland
Progress in development of gain and saturable absorber mirrors for semiconductor disc lasers
Peter Schunemann, BA Systems, USA
Advances in nonlinear optical materials for mid-infrared solid-state laser sources
G. K. Samanta, Physical Research Laboratory, India
Structured laser beams and novel applications
FIBER AND WAVEGUIDE DEVICES
Keynote Speaker:
Siddharth Ramachandran, Boston University, ECE Department, Photonics Center, Boston, MA, USA
Intermodal nonlinear fiber optics: a new pathway to power scalable sources
Invited Speakers:
Olivier Vanvincq, Université Lille 1, France
Active and passive solid-core microstructured fibers for laser applications
Thomas Gottschall, Friedrich-Schiller-Universität Jena, Germany
All-fiber optical parametric oscillator for bio-medical imaging
Pu Zhou, National University of Defense Technology, China
Multi-kW-level near-diffraction-limited coherent polarization beam combining of fiber laser sources
Tso Yee Fan, MIT Lincoln Laboratory, USA
Beam combining of fiber amplifiers
Jean-Emmanuel Broquin, L'Institut de Microélectronique Electromagnétisme et Photonique et le Laboratoire d'Hyperfréquences et de Caractérisation (IMEP-LaHC), France
Rare-earth-doped waveguide amplifiers and lasers (tentative title)
SPECIAL SYMPOSIUM NOVEL LASER-MATTER INTERACTION REGIMES
Franz Kaertner, University of Hamburg, Germany
THz Linear Acceleration and Compact X-ray Sources
Robin Marjoribanks from University of Toronto, Canada
Energy partition and dynamics of absorption and ablation in burst-mode (>100 MHz) ultra-fast pulsed laser ablation in biotissues
SUMMER SCHOOL on FRONTIERS OF SOLID-STATE LIGHT SOURCES
Chris Barty, Lawrence Livermore National Lab, Livermore, USA
Giulio Cerullo, Politecnico di Milano, Dipartimento di Fisica, Milano, Italy
Micro/nanostructuring with ultrashort laser pulses
See Leang Chin, Center for Optics, Photonics and Laser (COPL)
Laval University, Quebec City, Canada
Femtosecond laser filamentation and some applications
Paul B. Corkum, Joint Attosecond Science Laboratory, University of Ottawa, Ottawa, Canada
Attosecond technology: exploiting extreme nonlinear optics
Altamantas Galvanauskas, Electrical Engineering and Computer Science Department, University of Michigan, Ann Arbor, Michigan, USA
High Brightness Fiber Laser Technologies
Ursula Keller, Department of Physics, Institute for Quantum Electronics, ETH Zürich, Zürich, Switzerland
Semiconductor saturable absorber mirror (SESAM)
During Europhoton 2016 the second Prize for Research in Laser Science and Applications will be awared.
We look forward to welcoming you in Vienna. You will find more details on the conference programme on the website at: http://www.europhoton.org.
The EPS Conferences Department,
conferences@eps.org
The conference is organized by the Technical University of Vienna and the European Physical Society in cooperation with its Quantum Electronics and Optics Division (QEOD).
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Posted By Administration,
Monday 23 May 2016
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The prize is awarded every 2 years by the Condensed Matter Division of the European Physical Society for outstanding achievement in condensed matter physics.
The European Physical Society Condensed Matter Division is proud to announce that the 2016 EPS CMD Europhysics Prize is awarded to
- Peter Böni
- Aleksandr N. Bogdanov
- Christian Pfleiderer
- Achim Rosch
- Ashvin Vishwanath
“for the theoretical prediction, the experimental discovery and the theoretical analysis of a magnetic skyrmion phase in MnSi, a new state of matter.”
Discovery of a Skyrmion Phase in MnSi
Initially proposed as a model for hadrons in a mesonic field theory in particle physics, skyrmions have recently been discovered in magnetic systems thus establishing the existence of a new state of matter. Such structures exhibit a topological Hall effect and can be moved by currents much smaller than those required to displace domain walls thus opening the door to applications in data storage.
This nomination is in support of an exemplary collaboration of both theoretical and experimental groups on a most intriguing magnetic state of topological nature: a magnetic skyrmion crystal. In the remarkable pioneering studies by the nominees, this state was first proposed theoretically and subsequently discovered by neutron scattering in MnSi and its features have been impressively analyzed theoretically.
Magnetic skyrmions are spin textures on length scales of tens of nanometers that behave like particles. Similar to a vortex in a superconductor, a skyrmion cannot be unwound without creating discontinuities. This topological stability is reflected by a nonzero topological index also known as the skyrmion number.
Prior to the theoretical work by A.N. Bogdanov and co-workers [1, 2], conventional wisdom stated that skyrmions cannot spontaneously form as ground states in magnetic materials. It thus came as a considerable surprise that these authors were able to demonstrate that skyrmion lattices may spontaneously form in noncentrosymmetric magnetic systems if longitudinal fluctuations of the magnetization are facilitated. MnSi was proposed as one of the suitable candidates for such a scenario as it exhibited strong longitudinal magnetization fluctuations and the absence of a centre of inversion may result in a Dzyaloshinskii-Moriya contribution to the Hamiltonian.
Independently of these authors, A. Vishwanath and co-workers [3] theoretically proposed the existence of a “helical spin crystal” in MnSi, motivated by its enigmatic high-pressure phase. These authors also showed that the resulting skyrmion spin crystal can be interpreted as a multimode superposition of helical spin spirals. In subsequent work, Vishwanath and co-author also predicted the existence of a topological Hall effect resulting from a fixed phase relationship of these spin spirals, a phenomenon which has subsequently been verified in Ref. [4].
These theoretical proposals were taken up by a team around C. Pfleiderer, P. Böni, and A. Rosch, building on their respective expertise in transport properties of unconventional phases in MnSi, neutron scattering on noncollinearly ordered magnetic systems, and the provision of visionary theoretical support. Resulting from this combined expertise, the team was able to identify and theoretically explain the novel skyrmion phase in MnSi. The first experimental evidence for the existence of a skyrmion crystal in MnSi was provided by small angle neutron scattering (SANS) [5]. The SANS diffraction pattern was consistent with a hexagonal skyrmion lattice which was interpreted as a triple wavevector state. While prior theoretical work suggested the exclusive stability of a conical helical state in a field, the authors demonstrated within a sophisticated theoretical analysis in Ref. [5] that the thermodynamic fluctuations around the skyrmion crystal were fundamental in stabilizing the observed skyrmion crystal.
While highly suggestive of a skyrmion crystal, the SANS results did not yet unambiguously prove a fixed phase relationship between the spin spirals. To settle this issue, C. Pfleiderer, P. Böni, A. Rosch and co- workers investigated the Hall effect in Ref [4]. The observed Hall resistivity showed an additional contribution, in quantitative agreement with a Berry-phase induced emergent magnetic field originating from the nonvanishing skyrmion number of the topologically nontrivial skyrmion lattice.
Finally, C. Pfleiderer, P. Böni, A. Rosch and co-workers demonstrated that skyrmions can be manipulated similarly to other magnetic topological defects such as domain walls. Applying currents that were more than five orders of magnitude weaker than those used in similar experiments on domain walls, the authors observed a distinct rotation of the skyrmion lattice. This demonstrates the extraordinarily weak pinning of the skyrmion lattice and opens the door to manipulation of skyrmions in related systems.
This unique effort led by this group of theorists and experimentalists has resulted in the identification of a new state of matter that has literally created a “skyrmion-boom” in the condensed matter community. Not only have skyrmions also been identified in a larger class of systems, but also explicit proposals emerged to use skyrmions instead of domain walls for racetrack-type memory technologies. It is testament to the excellent work by P. Böni, A.N. Bogdanov, C. Pfleiderer, A. Rosch, A. Vishwanath that skyrmions have become such an exciting field of current research and they highly deserve the EPS CMD Europhysics Prize 2016.
Publications relevant for this nomination
[1] U.K. Rössler, A.N. Bogdanov, C. Pfleiderer, Spontaneous Skyrmion Ground States in Magnetic Metals, Nature 442, 797 (2006).
[2] A.N. Bogdanov , D.A. Yablonskii, Thermodynamically Stable “Vortices” in Magnetically Ordered Crystals – The Mixed State of Magnets, Sov. Phys. JETP 68, 101 (1989).
[3] B. Binz, A. Vishwanath, V. Aji, Theory of the Helical Spin Crystal: A Candidate for the Partially Ordered State of MnSi, Phys. Rev. Lett. 96, 207202 (2006).
[4] A.Neubauer, C. Pfleiderer, B. Binz, A. Rosch, R. Ritz, P.G. Niklowitz, P. Böni, Topological Hall Effect in the A-Phase of MnSi, Phys. Rev. Lett. 102, 186602 (2009).
[5] S. Mühlbauer, B. Binz, F. Jonietz, C. Pfleiderer, A. Rosch, A. Neubauer, R. Georgii, P. Böni, Skyrmion Lattice in a Chiral Magnet, Science 323, 915 (2009).
[6] F. Jonietz, S. Mühlbauer, C. Pfleiderer, A. Neubauer, W. Münzer, A. Bauer, T. Adams, R. Georgii, P. Böni, R.A. Duine, K. Everschor, M. Garst, A. Rosch, Spin Transfer Torques in MnSi at Ultralow Current Densities, Science 330, 1648 (2010).
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