Author
Listed:
- Ming Zhang
(Peking University)
- Shuqiao Zhang
(Peking University)
- Yanwei Xiong
(University of Nebraska-Lincoln)
- Hankai Zhang
(Peking University)
- Anatoly A. Ischenko
(RTU-MIREA - Russian Technological University)
- Oriol Vendrell
(Universität Heidelberg)
- Xiaolong Dong
(Peking University)
- Xiangxu Mu
(Peking University)
- Martin Centurion
(University of Nebraska-Lincoln)
- Haitan Xu
(Southern University of Science and Technology
University of Science and Technology of China)
- R. J. Dwayne Miller
(University of Toronto)
- Zheng Li
(Peking University)
Abstract
Ultrafast electron diffraction and time-resolved serial crystallography are the basis of the ongoing revolution in capturing at the atomic level of detail the structural dynamics of molecules. However, most experiments capture only the probability density of the nuclear wavepackets to determine the time-dependent molecular structures, while the full quantum state has not been accessed. Here, we introduce a framework for the preparation and ultrafast coherent diffraction from rotational wave packets of molecules, and we establish a new variant of quantum state tomography for ultrafast electron diffraction to characterize the molecular quantum states. The ability to reconstruct the density matrix, which encodes the amplitude and phase of the wavepacket, for molecules of arbitrary degrees of freedom, will enable the reconstruction of a quantum molecular movie from experimental x-ray or electron diffraction data.
Suggested Citation
Ming Zhang & Shuqiao Zhang & Yanwei Xiong & Hankai Zhang & Anatoly A. Ischenko & Oriol Vendrell & Xiaolong Dong & Xiangxu Mu & Martin Centurion & Haitan Xu & R. J. Dwayne Miller & Zheng Li, 2021.
"Quantum state tomography of molecules by ultrafast diffraction,"
Nature Communications, Nature, vol. 12(1), pages 1-7, December.
Handle:
RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-25770-6
DOI: 10.1038/s41467-021-25770-6
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