Your search keyword '"Lam, Chow-shing"' showing total 3 results

1. X-ray induced Coulomb explosion imaging of transient excited-state structural rearrangements in CS2.

Author

Unwin, James, Allum, Felix, Britton, Mathew, Gabalski, Ian, Bromberger, Hubertus, Brouard, Mark, Bucksbaum, Philip H., Driver, Taran, Ekanayake, Nagitha, Garg, Diksha, Gougoula, Eva, Heathcote, David, Howard, Andrew J., Hockett, Paul, Holland, David M. P., Kumar, Sonu, Lam, Chow-shing, Lee, Jason W. L., McManus, Joseph, and Mikosch, Jochen

Subjects

MOLECULAR physics, COULOMB explosion, SOFT X rays, CARBON disulfide, STRUCTURAL dynamics, X-rays, PHOTODISSOCIATION, ULTRASHORT laser pulses

Abstract

Structural imaging of transient excited-state species is a key goal of molecular physics, promising to unveil rich information about the dynamics underpinning photochemical transformations. However, separating the electronic and nuclear contributions to the spectroscopic observables is challenging, and typically requires the application of high-level theory. Here, we employ site-selective ionisation via ultrashort soft X-ray pulses and time-resolved Coulomb explosion imaging to interrogate structural dynamics of the ultraviolet photochemistry of carbon disulfide. This prototypical system exhibits the complex motifs of polyatomic photochemistry, including strong non-adiabatic couplings, vibrational mode couplings, and intersystem crossing. Immediately following photoexcitation, we observe Coulomb explosion signatures of highly bent and stretched excited-state geometries involved in the photodissociation. Aided by a model to interpret such changes, we build a comprehensive picture of the photoinduced nuclear dynamics that follows initial bending and stretching motions, as the reaction proceeds towards photodissociation. Coulomb Explosion imaging is a promising technique to study the ultrafast nuclear dynamics which underpin molecular photochemistry. By initiating Coulomb explosion through soft X-ray ionization, the authors are able to image ultrafast nuclear dynamics of a prototypical photoreaction. [ABSTRACT FROM AUTHOR]

Published

2023

2. Validation of Lam assessment of employment readiness (C-LASER) for Chinese injured workers.

Author

Chan, Henky, Li-Tsang, Cecilia W. P., Chan, Chetwyn, Lam, Chow Shing, Hui, Karen Lo, and Bard, Christine

Subjects

RETURN to work programs, UNEMPLOYMENT, PREPAREDNESS, WORK-related injuries

Abstract

Introduction: The Stage-of-Change Model offers a theoretical framework for understanding people’s intention to change. The Lam Assessment of Stages of Employment Readiness (LASER) was developed to measure one’s psychological readiness to return to work after an extended period of unemployment due to disability. Method: The present study aimed to validate the Chinese version of LASER using a sample of Chinese industrial injured workers. Ninety subjects with previous history of work-related injuries participated in the study. Results: Principal component analysis revealed a two-factor solution which was found different from the original three-factor structure of LASER. Test retest reliability (ICC) ranged from 0.55 to 0.79. Findings suggested that human capital factors of the workers did not seem to contribute significantly to the participants’ readiness to return-to-work. Instead, the perceived pain levels became the major contributing factor. Discussion: The Chinese version LASER was useful for reflecting the readiness of injured workers returning to work. However, the pathology associated with the injuries together with the workers’ compensation system might influence the process of change which warrants further study area. [ABSTRACT FROM AUTHOR]

Published

2006

3. X-ray induced Coulomb explosion imaging of transient excited-state structural rearrangements in CS2.

Author

Unwin, James, Allum, Felix, Britton, Mathew, Gabalski, Ian, Bromberger, Hubertus, Brouard, Mark, Bucksbaum, Philip H., Driver, Taran, Ekanayake, Nagitha, Garg, Diksha, Gougoula, Eva, Heathcote, David, Howard, Andrew J., Hockett, Paul, Holland, David M. P., Kumar, Sonu, Lam, Chow-shing, Lee, Jason W. L., McManus, Joseph, and Mikosch, Jochen

Subjects

*MOLECULAR physics, *COULOMB explosion, *SOFT X rays, *CARBON disulfide, *STRUCTURAL dynamics, *X-rays, *PHOTODISSOCIATION, *ULTRASHORT laser pulses

Abstract

Structural imaging of transient excited-state species is a key goal of molecular physics, promising to unveil rich information about the dynamics underpinning photochemical transformations. However, separating the electronic and nuclear contributions to the spectroscopic observables is challenging, and typically requires the application of high-level theory. Here, we employ site-selective ionisation via ultrashort soft X-ray pulses and time-resolved Coulomb explosion imaging to interrogate structural dynamics of the ultraviolet photochemistry of carbon disulfide. This prototypical system exhibits the complex motifs of polyatomic photochemistry, including strong non-adiabatic couplings, vibrational mode couplings, and intersystem crossing. Immediately following photoexcitation, we observe Coulomb explosion signatures of highly bent and stretched excited-state geometries involved in the photodissociation. Aided by a model to interpret such changes, we build a comprehensive picture of the photoinduced nuclear dynamics that follows initial bending and stretching motions, as the reaction proceeds towards photodissociation. Coulomb Explosion imaging is a promising technique to study the ultrafast nuclear dynamics which underpin molecular photochemistry. By initiating Coulomb explosion through soft X-ray ionization, the authors are able to image ultrafast nuclear dynamics of a prototypical photoreaction. [ABSTRACT FROM AUTHOR]

Published

2023