Nano-scaled domain in the strongly correlated electron materials ( 強相関電子系におけるナノスケール電子相ドメイン ) Tanaka Laboratory Kenichi Kawatani 2011.5.25 First M1 colloquium.

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Presentation transcript:

Nano-scaled domain in the strongly correlated electron materials ( 強相関電子系におけるナノスケール電子相ドメイン ) Tanaka Laboratory Kenichi Kawatani First M1 colloquium in 2011

Contents ・ What is the strongly correlated electron system( 強相関電子系 )? ・ domain in the strongly correlated electron system ・ the merit of picking up domain ・ my research

What is the strongly correlated electron system? 3d transiton metal oxides (3d 遷移金属酸化物 ) High temperture superconductor ( 高温超伝導体 ) Organic superconductor ( 有機超伝導体 ) /press_release/2009/ Organic compounds in the π electron system (π 電子系有機化合物 ) ~naitolab/htsc.html Various new physical propertyRecently researched very hardly

The feature of this system restricted Strong Coulomb interaction Electron can’t move easily change the physical property drastically Stimulus Hole-doping Decrease of coulomb interaction Electron can move more easily 3d π orbital

What is domain? water oil Apparently they are ‘milk’, oil is mixed in the water from micro-scale. domain metal Insulator In this system, ‘domain’ is mixed from micro scale. It maybe caused by ‘ununiformity of electrons’. In this system,

Example of observing ‘domain’ Whole physical property Average of two phase ≠ real physical property M. M. Qazilbash et al. Science 318, 1750 (2007) Vanadium dioxide (VO2) ・・・ metal-insulator transition Metal domain Coexistance of insulator and metal phase Insulator

Example of picking up the domain I Drastic change Picking up the domainUnderstand the real physical property Yanagisawa et al. Appl. Phys. Lett. 89, Change of physical property by nano-fabrication 10μm500nm In real, domain change drastically! Change the whole gently

Experimental data Metal domain Optical microscope image I’ll pick up the domain by nano-fabrication, And observe the behavior of VO2 metal domain! I can observe metal domain! Research theme ・・・ the behavior of VO2 metal domain ？

Application for the electronic device Control the metal domain by voltage/current. Multiple-valued memory( 多値メモリ ) ・・・ It can memorize multiple value. Next-generation memory

まとめ In the strongly correlated electron system, I will research about the behavior of VO2 metal domain by nano-fabrication. I can get new information about the strongly correlated electron system! ・ electrons strongly effect each other ・ domain existance by the ununiformity of electron

Fabrication method Pulsed laser deposition method (PLD 法 ) We can make accuracy very thin films (atomic layer). Substrate ～ nm

Nano-fabrication method Substrate VO2 resist ◎ TiO 2 (001) substrate ①making VO2 epitaxial thin film by PLD method ②application of resist by spincoat method ③making pattern by nanoimprint equipment ④RIE(Reactive Ion Etching)⑤remove the resist 100nm~ Nanoimprint lithography method