Tiancai Zhang
Shanxi University
148 Papers
422 Citations
Tiancai Zhang is an academic researcher from Shanxi University. The author has contributed to research in topics: Laser & Photon. The author has an hindex of 18, co-authored 130 publications. Previous affiliations of Tiancai Zhang include Shandong University & California Institute of Technology.
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Papers
Transferring entanglement to the steady state of flying qubits
TL;DR: In this paper, the authors proposed and studied entanglement transfer from cavities driven by an entangled external field to controlled flying qubits, and showed that in the limit of long coherence time of the cavity fields, when the dynamics is approximately unitary, entenglement is transferred from the driving field to two atomic qubits that cross the cavities.
High-efficiency coupling of single quantum emitters into hole-tailored nanofibers.
TL;DR: In this paper, a hole-tailored nanofiber was proposed to enhance the coupling efficiency of photons from a single quantum emitter into a holetailored nano-fiber.
Hexapartite steering based on a four-wave-mixing process with a spatially structured pump.
TL;DR: In this article , the steering properties of six spatially separated beams from the four-wave-mixing process with a spatially structured pump are investigated, and the behaviour of all (1+i)/(i+1)-mode (i=1,2,3) steerings are understandable, if the role of the corresponding relative interaction strengths are taken into account.
Versatile objectives with NA = 0.55 and NA = 0.78 for cold-atom experiments
TL;DR: Two sets of versatile high-numerical-apeture objectives suitable for various cold-atom experiments that can be further reoptimized at any single wavelengths from ultraviolet to near infrared and for various optical flat window with different thickness by only tuning one of lens spacing are presented.
Optical spectrum detection of synthetic microsphere resonator using a nanofiber.
TL;DR: In this paper , the authors demonstrate optical spectrum detection of a synthetic silica microsphere resonator with whispering gallery modes fabricated by chemical methods using an optical nanofiber to touch the SSM.