In recent years there have been various breakthroughs in the science and technology of superconducting and magnetic materials. Despite the vast achievements made after these discoveries, further advances are required in the basic understanding and application of these very important and applicable materials. A plan for the first event of the series of Magnetic and Superconducting Materials (MSM) biannual conferences started in 1997, and (MSM99) was first organized at Sharif University of Technology in September 1999. Nine successful MSM conferences have been held in different countries so far. These conferences aimed to bring together regional and international research groups and technologists of related companies to discuss new materials, their results and current problems in the areas of superconductivity, magnetism, novel materials and also in the general field of low temperature physics.
I have the great pleasure to announce that we are organizing the 10th International Conference on Magnetic and Superconducting Materials (MSM17) at Sharif University of Technology in Tehran, Iran during 18-21 September 2017. With many eminent invited speakers including Nobel Laureates who have confirmed their presence, this conference is to address the recent developments and improvements in the science and engineering of superconductivity and magnetism and their applications. The conference themes are designed to attract researchers and educators to share their recent findings and techniques in these fields.
I wish you all a very productive and enjoyable stay at the MSM17 conference in Iran.
Fundamental and applied science of magnetism and superconductivity, with emphasis on strongly correlated electron systems are the main topics of the conference. The fields covered in the conference include:
I. Physics and Chemistry of Materials Synthesis
a- Advances in techniques of obtaining high-quality material.
b- Thin films and quantum structures (quantum wells, quantum wires, quantum dots, superlattices)
c- The physics of surfaces and interfaces
II. Physical Properties
a- Electronic properties and band structure.
b- Transport, magneto-transport, magneto-optical properties.
c- Thermodynamic properties, critical phenomena, phase transitions.
d- Flux dynamics, Josephson effect, critical current.
III. Special Topics in Magnetism
a- Anomalous quantum Hall effect.
b- Amorphous magnetism, spin glasses.
c- Bio-magnetism.
d- Ferrites, garnets, permanent magnets.
e- Nanomagnetism, quantum dot.
f- Ferrofluids.
g- Magnetic semiconductors.
h- Spintronics and spin transport.
i- Skyrmions and their manipulation.
j- Magnetic imaging and microscopy.
IV. Special Topics in Superconductivity
a- High-Tc cuprates.
b- Fe-based superconductivity.
c- Hydrogen-rich materials, especially at high pressure.
d- Superconductivity at nanoscale.
e- Boron-based superconductivity.
f- Magnetic superconductors.
g- Heavy Fermion.
h- Organic superconductivity.
i- Topological superconductivity; Majorana fermions.
V. Theoretical Approaches
a- Low dimensional systems.
b- Frustrated magnetic systems.
c- HTSC mechanism.
d- Magnetic interactions and ordering.
VI. Applications
a- Power, HTSC motors, microwave devices, sensors, optoelectronic.
b- Magnetic recording.
c- Medical and pharmaceutical applications of magnetism.
09月18日
2017
09月21日
2017
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