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1. Transport induced dimer state from topological corner states

   Recently, a new type of second-order topological insulator has been theoretically proposed by introducing an in-plane Zeeman field into the Kane-Mele...

   Kai-Tong Wang, Yafei Ren, ... Jian Wang in Science China Physics, Mechanics & Astronomy

   Article 11 March 2021

2. InAs/(In)GaSb-superconductor heterostructures: Materials and devices

   This article will briefly describe a Majorana platform made of InAs/GaSb (including InAs/(In)GaSb) semiconductor-superconductor heterostructures. A...

   Rui-Rui Du in Science China Physics, Mechanics & Astronomy

   Article 08 May 2023

3. Quantum to classical crossover under dephasing effects in a two-dimensional percolation model

   Scaling theory predicts complete localization in d = 2 in quantum systems belonging to the orthogonal class (i.e., with time-reversal symmetry and...

   Junjie Qi, Haiwen Liu, ... X. C. **e in Science China Physics, Mechanics & Astronomy

   Article 02 September 2019

4. Wave-function approach to Master equations for quantum transport and measurement

   This paper presents a comprehensive review of the wave-function approach for derivation of the numberresolved Master equations, used for description...

   Shmuel Gurvitz in Frontiers of Physics

   Article 07 December 2016

5. Conductance switching of a phthalocyanine molecule on an insulating surface

   We study the electron transport through the double-barrier junction consisted of the phthalocyanine molecule adsorbed on a NaCl bilayer on a metal...

   Kun Peng Dou, Chao-Cheng Kaun in Frontiers of Physics

   Article 13 October 2016

6. Edge physics in two-dimensional topological insulators

   Topology in condensed matter physics manifests itself in the emergence of edge or surface states protected by underlying symmetries. We review...

   G. Dolcetto, M. Sassetti, T. L. Schmidt in La Rivista del Nuovo Cimento

   Article 29 February 2016

7. Quantum-interference-induced magnetization in mesoscopic loop interferometers

   We theoretically investigate quantum interference effects in mesoscopic loop interferometers. In the absence of an Aharonov-Bohm flux, the asymmetry...

   Hai Tao Wang, Sam Young Cho, Taeseung Choi in Journal of the Korean Physical Society

   Article 01 November 2013

8. Number-resolved master equation approach to quantum transport under the self-consistent Born approximation

   We construct a particle-number ( n )-resolved master equation (ME) approach under the self-consistent Born approximation (SCBA) for quantum transport...

   Yu Liu, **Shuang **, ... Yi**g Yan in Science China Physics, Mechanics and Astronomy

   Article 22 August 2013

9. Fano interference in a parallel double quantum dot interferometer modified by the decoherence effect

   By introducing floating leads to mimic the decoherence mechanism, we study the influence of the decoherence effect on the Fano interference in...

   Chuan-**g Yang, Feng-Zhang Ren, Wei-Jiang Gong in Journal of the Korean Physical Society

   Article 01 March 2014

10. Proper definitions of persistent currents in mesoscopic Aharonov-Bohm interferometers

    We introduce a long-standing ambiguity in the persistent currents (PCs), addressed by Büttiker in 1985 and by Jayannavar and Deo in 1995, of a...

    Sam Young Cho, Hai Tao Wang, Taeseung Choi in Journal of the Korean Physical Society

    Article 22 February 2013

11. Influence of Rashba spin-orbit coupling on Fano-Kondo effect in a parallel double-quantum-dot structure

    Electron transport through a parallel double-quantum-dot structure is theoretically studied with one dot in the Kondo region and the other one in the...

    **g Shan, Yun-Gang Wang, ... Yu Han in Journal of the Korean Physical Society

    Article 28 February 2014

12. Frequency-dependent admittance of a three-probe mesoscopic conductor

    By considering of two factors, the hop** of electrons between different channels in the scattering on the interfaces of different regions the...

    J. Chuen, Ying Tian in Journal of the Korean Physical Society

    Article 01 March 2013

13. Spin-orbit coupling and spin current in mesoscopic devices

    Recently, the spin-orbit coupling and spin current in nanodevice have been investigated extensively. In this paper, we review the recent progresses...

    Yan**a **ng, QingFeng Sun in Science China Physics, Mechanics and Astronomy

    Article 30 December 2012

14. Current properties in a three-terminal quantum-dot ring with spin bias and Rashba interaction

    Electronic transport through a triple-quantum-dot ring with three terminals is theoretically studied. By introducing a local Rashba spin-orbit...

    Chuan-**g Yang, Wei-Jiang Gong in Journal of the Korean Physical Society

    Article 01 September 2013

15. Fano-Andreev transport and circulating currents in mesoscopic interferometers

    Quantum correlation and interference effects are investigated in mesoscopic interferometers connected to a normal metal and a superconductor. For...

    Yao Heng Su, Sam Young Cho in Journal of the Korean Physical Society

    Article 10 August 2012

16. Anharmonic effect of adiabatic quantum pum**

    Based on the scattering matrix approach, we systematically investigate the anharmonic effect of the pumped current in double-barrier structures with...

    Wei-Yin Deng, Ke-Ju Zhong, ... Wen-Ji Deng in Frontiers of Physics

    Article 19 October 2013

17. Demonstration of magnetic confinement in graphene with Fano-type resonances

    We demonstrate the magnetic confinement in graphene by investigating the Fano-type resonant features in the transmission spectra. The Fano-type...

    Nojoon Myoung, Kyungchul Seo, Gukhyung Ihm in Journal of the Korean Physical Society

    Article 29 January 2013

18. Anomalous conductance quantization observed in a quantum point contact with an asymmetric confinement potential

    The conductance through a quantum point contact with an asymmetric confinement potential has been studied. Multiple anomalous conductance plateaus...

    M. Seo, Y. Chung in Journal of the Korean Physical Society

    Article 13 June 2012

19. Investigation of gate-all-around silicon nanowire transistors for ultimately scaled CMOS technology from top-down approach

    The gate-all-around (GAA) silicon nanowire transistor (SNWT) is considered one of the best candidates for ultimately scaled CMOS devices at the end...

    Ru Huang, Run-sheng Wang in Frontiers of Physics in China

    Article 22 September 2010

20. Electron transport in nanotube-ribbon hybrids

    The electronic and transport properties of nanotube-ribbon hybrids subject to the influences of a transverse electric field are investigated...

    T. S. Li, S. C. Chang, M. F. Lin in The European Physical Journal B

    Article 18 August 2009