Journals
Advanced Photonics
Photonics Insights
Advanced Photonics Nexus
Photonics Research
Advanced Imaging
View All Journals
Chinese Optics Letters
High Power Laser Science and Engineering
Articles
Optics
Physics
Geography
View All Subjects
Conferences
CIOP
HPLSE
AP
View All Events
News
About CLP
Search by keywords or author
Login
Registration
Login in
Registration
Search
Search
Articles
Journals
News
Advanced Search
Top Searches
laser
the
2D Materials
Transformation optics
Quantum Photonics
Home
All Issues
Journals >
>
Topics >
Quantum Information
Contents
Quantum Information
|
1 Article(s)
Experimental simulation of spin-1 states by second-order type-II parametric down-conversion
Jia-qiang ZHAO, Lian-zhen CAO, Yang YANG, and Huai-xin LU
In this paper, by using the second-order parametric down-conversion of the nonlinear crystal, the spin-1 state is simulated by the two-photon polarization entangled modes. Through adjusting the laser pulse power density, the efficiency of second-order parametric down-conversion is enhanced. The intensity of the spin-1 state is 0.5/s. The fidelity of the state is up to F=0.891±0.002, and the contrast is C=17.3. The results provide a new method for Stern-Gerlach measurement on the spin-1 system.
In this paper, by using the second-order parametric down-conversion of the nonlinear crystal, the spin-1 state is simulated by the two-photon polarization entangled modes. Through adjusting the laser pulse power density, the efficiency of second-order parametric down-conversion is enhanced. The intensity of the spin-1 state is 0.5/s. The fidelity of the state is up to F=0.891±0.002, and the contrast is C=17.3. The results provide a new method for Stern-Gerlach measurement on the spin-1 system.
showLess
Optoelectronics Letters
Publication Date: Jan. 01, 2017
Vol. 13, Issue 1, 74 (2017)
Get PDF
View fulltext
Topics
Optical Fibers and Communications
Devices
Quantum Information
Measurement Devices and Methods
Materials
Image and Information Processing
Erratum
Biomedical Photonics
Micro-Nanostructures