@Article{CAM-13-25, author = {}, title = {会议信息:2017-Zhejiang University Workshop of Tensor Networks and Related Topics in Quantum Information Theory }, journal = {CAM-Net Digest}, year = {2016}, volume = {13}, number = {25}, pages = {8--8}, abstract = {

January 4-7,2017, Hangzhou, China

Tensor network methods are taking a central role in modern quantum physics and beyond. They can provide a good compressed approximation to certain classes of quantum states, and the associated graphical language makes it easy to describe and pictorially reason about quantum circuits, channels, protocols, open systems and more. At the same time, methods from graph theory have been employed to formulate general statements about quantum transport, based on the support connectivity graph of a systems Hamiltonian. In this workshop, we will invite some famous scientists in quantum information theory to report their important works on tensor network and related problems in quantum information. The workshop should be accessible for graduate students and advanced undergraduates and bring those attending to the forefrontof some current research challenges.

Chair: Song Li (Zhejiang University, China)
Co-Chair: Man-Hong Yung (South University of Science and Technology, China) Junde Wu (Zhejiang University, China)

Speakers
Alex Wozniakowski   Harvard University, USA
Barry Sanders       University of Calgary, Canada
Jacob Biamonte      University of Malta
Zhengwei Liu        Harvard University, USA
Man-Hong Yung       South University of Science and Technology, China
Shaojun Dong        University of Science and Technology of China
Shenggen Zheng      Sun Yat-sen University, China

欢迎有兴趣的研究生和年轻教师参加.本次活动不收取注册费,但食宿、交通等费用自理。我们将支付被邀请报告人会议期间的食宿费。

可为参会者预定百合花饭店,标准间每晚 320元,含早餐。需要者12月20日前联系我们。

会议时间: 1月4日报到,1月5-6日会议报告,1月7日离开杭州。

会议地点: 浙江大学数学学院

联系人:武俊德 教授  wjd@zju.edu.cn


}, issn = {}, doi = {https://doi.org/2016-CAM-14681}, url = {https://global-sci.com/article/76617/2017-zhejiang-university-workshop-of-tensor-networks-and-related-topics-in-quantum-information-theory} }