Physicsnpj Computational Materials
Conversion of twisted light to twisted excitons using carbon nanotubes
X. Zang, N. Singh, et al.
This groundbreaking research by Xiaoning Zang, Nirpendra Singh, Mark T. Lusk, and Udo Schwingenschlögl investigates how carbon nanotubes can harness the orbital angular momentum of light, transforming it into excitons for quantum information processing. Through analytical analysis and real-time simulations, the study reveals the potential of CNTs in the development of advanced optoelectronic circuits.
Related Publications
Explore these studies to deepen your understanding
Adjacent work that informs or extends this paper's methodology and findings.
Chemistry
Improved electrochemical conversion of CO₂ to multicarbon products by using molecular doping
H. Wu, J. Li, et al.
Engineering and Technology
High-speed identification of suspended carbon nanotubes using Raman spectroscopy and deep learning
J. Zhang, M. L. Perrin, et al.
Engineering and Technology
Using visible light to activate antiviral and antimicrobial properties of TiO2 nanoparticles in paints and coatings: focus on new developments for frequent-touch surfaces in hospitals
M. Schutte-smith, E. Erasmus, et al.
Interdisciplinary Studies
Welcome to the fertility clinic of the future! Using speculative design to explore the moral landscape of reproductive technologies
W. Willems, A. Heltzel, et al.
