Abstract: 　　In this talk, I will briefly discuss the recent progress in engineering topological states in condensed matter systems, including honeycomb lattices and topological...

报告摘要： Ultrashort intense x-ray pulses available from new XFEL and HHG light sources allows to employ ultrafast and non-linear processes in atoms and molecules for probing qu...

报告摘要： 　　Low-dimensional magnetic materials have been proposed as building blocks for many intriguing applications, ranging from spintronics to quantum information processin...

Abstract: 　　Tailoring the properties of semiconductor and magnetic structures has been a driving force of information technology. The goal of combining ferromagnetism with semic...

报告摘要： Quantum Hall liquid is the first definitive example of a state of matter which does not break any symmetry, and exhibits "topological order". In this talk I....

报告摘要： Material formation in nature is precisely controlled in all aspects from crystal nucleation, growth to assembly to deliver superior functions. Specific biomolecule-mat...

报告摘要： Two-dimensional layered materials (2DLMs), such as graphene or molybdenum disulfide, represent an ideal 2D material system for exploring fundamental chemistry and phys...

报告人简介： 　　Prof. Kai-Ming Ho is a Distinguished Professor in Liberal Arts and Sciences at Iowa State University and Senior Scientist at the Ames Laboratory. He is a world le...

Abstract: 　　Strongly correlated materials possess many remarkable properties, such as high-Tc superconductivity in cuprates and colossal magnetoresistance in doped manganit...

报告摘要： Heterogeneous catalysis is critical for the prosperity of human civilization. It provides access to the range of chemicals, materials, and fuels we use. Understanding....

报告摘要： Exploring novel quantum phases is always a central issue in condensed matter physics. In recent years, time-reversal symmetric topological phases (TI) have stimulated....

Abstract: 　　We develop an efficient scheme that allows for arbitrary operations on a cavity mode using a strongly dispersive qubit-cavity interaction and time-dependent drives....

Abstract: 　　Parity-time (PT) symmetry is a fundamental notion in quantum field theories and opens a new paradigm of non-Hermitian Hamiltonians ranging from quantum mechanics, el...

Abstract: 　　It is well known that radiation pressure forces of light can be used for the manipulation of mechanical motion in microscopic systems. Notable examples include lase...

Abstract： 　　Spin-orbit coupling is ubiquitous in quantum dot quantum computing architectures, and makes spin qubits susceptible to charge noise. We derive a Hamiltonian descri...