Dalong Qi scite author profile

Compressed ultrafast photography (CUP) is a burgeoning single-shot computational imaging technique that provides an imaging speed as high as 10 trillion frames per second and a sequence depth of up to a few hundred frames. This technique synergizes compressed sensing and the streak camera technique to capture nonrepeatable ultrafast transient events with a single shot. With recent unprecedented technical developments and extensions of this methodology, it has been widely used in ultrafast optical imaging and metrology, ultrafast electron diffraction and microscopy, and information security protection. We review the basic principles of CUP, its recent advances in data acquisition and image reconstruction, its fusions with other modalities, and its unique applications in multiple research fields.

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Tracking an electronic wave packet in the vicinity of a conical intersection

Duan

Sun

et al. 2017

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This work treats the impact of vibrational coherence on the quantum efficiency of a dissipative electronic wave packet in the vicinity of a conical intersection by monitoring the time-dependent wave packet projection onto the tuning and the coupling mode. The vibrational coherence of the wave packet is tuned by varying the strength of the dissipative vibrational coupling of the tuning and the coupling modes to their thermal baths. We observe that the most coherent wave packet yields a quantum efficiency of 93%, but with a large transfer time constant. The quantum yield is dramatically decreased to 50% for a strongly damped incoherent wave packet, but the associated transfer time of the strongly localized wave packet is short. In addition, we find for the strongly damped wave packet that the transfer occurs via tunneling of the wave packet between the potential energy surfaces before the seam of the conical intersection is reached and a direct passage takes over. Our results provide direct evidence that vibrational coherence of the electronic wave packet is a decisive factor which determines the dynamical behavior of a wave packet in the vicinity of the conical intersection.

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Optimizing codes for compressed ultrafast photography by the genetic algorithm

Yang¹,

Qi²,

Wang³

et al. 2018

Optica

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Hyperspectrally Compressed Ultrafast Photography

Yang

Cao

et al. 2020

Phys. Rev. Lett.

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Dalong Qi

Single-shot compressed ultrafast photography: a review

Tracking an electronic wave packet in the vicinity of a conical intersection

Optimizing codes for compressed ultrafast photography by the genetic algorithm

Hyperspectrally Compressed Ultrafast Photography

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