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Low Temperature Physics Laboratory
Kimitoshi KONO
Chief Scientist
Kimitoshi KONO (D.Sci.)
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Research Areas

We study quantum phenomena in the system from nano to macroscopic scale at low and ultra-low temperatures. 1) Quantum properties of low dimensional systems consisting of electrons, ions and atomic hydrogen formed on the helium surface: Recent research topics include transport properties of the 2D Wigner solid, transport of microwave excited 2D electrons, transport of an ion pool, flow of adsorbed 3He film, and properties of solid He. Rotating cryostat and ultra-low temperature cryostat are used. In addition, we develop manipulation of single electrons on liquid He. 2) We study quantum electron/spin correlation in nano-scale systems, for example, metal and semiconductor quantum dots with the use of nano-fabrication techniques. Device application and quantum information processing are also in our scope.

Research Subject

  1. Development of nano-scale electronic devices and physics of electrons and spins
  2. Non-equilibrium phenomena in electrons on liquid He
  3. Free Surface and boundary effect in superfluid 3He
  4. Manipulation of single electrons on liquid helium surface
  5. Solid Helium

Related links

  1. RIKEN Advanced Science Institute Website_Laboratories PageNew Window
  2. Individual Website Laboratory PageNew Window

Press release

March,29.2010
Spin-dependent transmission and capture of electrons successfully accomplished using artificial atoms with different magnetic properties

RIKEN RESEARCH

November 11, 2011
Nuclear spins get in line
Electrically controlling the magnetic polarization of nuclei offers a new way to store quantum information New Window
April 01, 2011
Electrons set free
Free-floating electrons on top of liquid helium yield insights into their transport behavior New Window
February 18,2011
Finding solid ground
Experimental evidence adds to the likelihood of the existence of supersolids, an exotic phase of matter New Window
February 10,2011
A novel vanishing act
Microwave photons can nullify the conductivity of electrons confined to the surface of liquid helium New Window
June 18,2010
Molecular blockade
Artificial 'molecules' with an asymmetric structure can control the flow of electrons in semiconductor materials New Window
February 26, 2010
Strong and free electrons
Long-predicted physical effects confirmed for the first time by a model system of strongly interacting electrons
New Window
May 15, 2009
Using superfluid helium-3 to explore new phenomenaNew Window

List of Selected Publications

  1. D. G. Rees, I. Kuroda, C. A. Marrache-Kikuchi, M. Höfer, P. Leiderer, and K. Kono.:
    "Point-Contact Transport Properties of Strongly Correlated Electrons on Liquid Helium"
    Phys. Rev. Lett. 106, 026803 (2011) [4 pages]
  2. R. Takahashi, K. Kono, S. Tarucha, and K. Ono.:
    "Voltage-Selective Bidirectional Polarization and Coherent Rotation of Nuclear Spins in Quantum Dots"
    Phys. Rev. Lett. 107, 026602 (2011) [4 pages]
  3. Konstantinov D. and Kono K.:
    "Photon-Induced Vanishing of Magnetoconductance in 2D Electrons on Liquid Helium"
    Phys. Rev. Lett. 105, 226801 (2010) [4 pages]
  4. Choi H, Takahashi D, Kono K, and Kim E.:
    "Evidence of Supersolidity in Rotating Solid Helium"
    Science 330 (2010) 1512-1515
  5. Huang SM, Tokura Y, Akimoto H, Kono K, Lin JJ, Tarucha S, and Ono K.:
    "Spin Bottleneck in Resonant Tunneling through Double Quantum Dots with Different Zeeman Splittings"
    Phys. Rev. Lett. 104, 136801 (2010) [4 pages]
  6. Konstantinov D, Dykman MI, Lea MJ, Monarkha YP, and Kono K.:
    "Resonant Correlation-Induced Optical Bistability in an Electron System on Liquid Helium"
    Phys. Rev. Lett. 103, 096801 (2009) [4 pages]
  7. Ikegami H, Akimoto H, and Kono K.:
    "Nonlinear Transport of the Wigner Solid on Superfluid 4He in a Channel Geometry"
    Phys. Rev. Lett. 102, 046807 (2009) [4 pages]
  8. Huang SM, Lee TC, Akimoto H, Kono K, and Lin JJ.:
    "Observation of Strong Electron Dephasing in Highly Disordered Cu93Ge4Au3 Thin Films"
    Phys. Rev. Lett. 99 04660 (2007) [4 pages]
  9. Konstantinov D, Isshiki H, Monarkha YP, Akimoto H, Shirahama K, Kono K.:
    "Microwave-Resonance-Induced Resistivity: Evidence of Ultrahot Surface-State Electrons on 3He"
    Phys. Rev. Lett. 98 235302 (2007) [4 pages]

Members

Principal Investigator

Kimitoshi KONO
Chief Scientist

Staff Scientist

Masamitsu WATANABE
Senior Research Scientist
Hiroki IKEGAMI
Senior Research Scientist
Minoru KAWAMURA
Senior Research Scientist
Keiji ONO
Senior Research Scientist

Postdoctoral Fellow

Shinichi AMAHA
Special Postdoctoral Researcher
David Gareth REES
Contract Researcher

Student Trainee

Ruslan Germanovich BATULIN
International Program Associate
Niyaz BEYSENGULOV
International Program Associate
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