【摘 要】
:
Simulation of open quantum dynamics for various Hamiltonians and spectral densities are ubiquitous for studying various quantum systems.On a quantum computer,only log2 N qubits are required for the simulation of an N-dimensional quantum system,hence simul
【机 构】
:
Department of Physics,Applied Optics Beijing Area Major Laboratory,Beijing Normal University,Beijing
论文部分内容阅读
Simulation of open quantum dynamics for various Hamiltonians and spectral densities are ubiquitous for studying various quantum systems.On a quantum computer,only log2 N qubits are required for the simulation of an N-dimensional quantum system,hence simulation in a quantum computer can greatly reduce the computational complexity compared with classical methods.Recently,a quantum simulation approach was proposed for studying photosynthetic light harvesting[npj Quantum Inf.4,52 (2018)].In this paper,we apply the approach to simulate the open quantum dynamics of various photosynthetic systems.We show that for Drude-Lorentz spectral density,the dimerized geometries with strong couplings within the donor and acceptor clusters respectively exhibit significantly improved efficiency.We also demonstrate that the overall energy transfer can be optimized when the energy gap between the donor and acceptor clusters matches the optimum of the spectral density.The effects of different types of baths,e.g.,Ohmic,sub-Ohmic,and super-Ohmic spectral densities are also studied.The present investigations demonstrate that the proposed approach is universal for simulating the exact quantum dynamics of photosynthetic systems.
其他文献
We investigate the cyclotron dynamics of Bose-Einstein condensate (BEC) in a quadruple-well po-tential with synthetic gauge fields.We use laser-assisted tunneling to generate large tunable effective magnetic fields for BEC.The mean position of BEC follows
Remote state preparation (RSP) provides a useful way of transferring quantum information between two distant nodes based on the previously shared entanglement.In this paper,we study RSP of an arbitrary single-photon state in two degrees of freedom (DoFs).
二甲苯作为石油化工行业中的基础原料,其应用价值很大且需求量逐年增加,因此二甲苯分离提纯的研究具有重要理论意义和工业应用价值.同时,二甲苯异构体分离被认为是改变世界的七大分离难题之一.金属有机骨架材料MIL-125是一种典型的含钛金属有机骨架材料,被广泛应用于光催化氧化和吸附分离中.目前传统金属有机骨架材料MIL-125的合成方法需要严格的无水操作环境以及无水级的超纯试剂.由于合成过程中钛源极易水解,很难控制其水解速率.本研究组提出了一种新的MIL-125的合成方法,该法引入了耐水解的含钛无机-有机杂化低聚
High-fidelity quantum gates are essential for large-scale quantum computation.However,any quantum manipulation will inevitably affected by noises,systematic errors and decoherence effects,which lead to infidelity of a target quantum task.Therefore,impleme
在质子交换膜燃料电池中,金属铂是最高效的阴极氧还原催化剂之一,但是铂昂贵的价格严重阻碍了其在燃料电池领域中的大规模商业化应用.通过铂与3d过渡金属(Fe、Co和Ni)合金化可以有效提高催化剂的氧还原活性,然而在实际的高腐蚀性、高电压和高温的燃料电池运行环境中,铂合金纳米粒子易发生溶解、迁移和团聚,从而导致催化剂耐久性差.同时过渡金属离子的溶出会影响质子交换膜的质子传导,并且一些过渡金属离子会催化芬顿反应,产生高腐蚀性•OH自由基,加快Nafion和催化剂的劣化.与过渡金属掺杂相比,非金属掺杂具有明显优势:
By numerically solving the three-dimensional time-dependent Schr(o)dinger equation,we have inves-tigated multiphoton ionization of hydrogen atom in the two-color circularly polarized (TCCP) laser fields consisting of a strong 400 nm and a much weaker 800
Negative thermal expansion (NTE) of materials is an intriguing phenomenon challenging the concept of traditional lattice dynamics and of importance for a variety of applications.Progresses in this field develop markedly and update continuously our knowled
Heterojunction structure has been extensively employed for the design of novel catalysts.In the present study,density functional theory was utilized to investigate the electronic structure and hydrogen evolution performance of Ti3C2O2 MXene quantum dots/g
Spiral spin liquids are unique classical spin liquids that occur in many frustrated spin systems,but do not comprise a new phase of matter.Owing to extensive classical ground-state degeneracy,the spins in a spiral spin liquid thermally fluctuate cooperati
As high-performance organic semiconductors,π-conjugated polymers have attracted much attention due to their charming advantages including low-cost,solution processability,mechanical flexibility,and tunable optoelectronic properties.During the past several