Dr Kun Peng: Publications

Investigation of light–matter interaction in single vertical nanowires in ordered nanowire arrays

Nanoscale Royal Society of Chemistry (RSC) 14:9 (2022) 3527-3536

Authors:

Ziyuan Li, Li Li, Fan Wang, Lei Xu, Qian Gao, Ahmed Alabadla, Kun Peng, Kaushal Vora, Haroldo T Hattori, Hark Hoe Tan, Chennupati Jagadish, Lan Fu

The application of one-dimensional nanostructures in terahertz frequency devices

Applied Physics Reviews AIP Publishing 8:4 (2021) 041314

Authors:

Kun Peng, Michael B Johnston

Selective area epitaxy of III-V nanostructure arrays and networks: Growth, applications, and future directions

APPLIED PHYSICS REVIEWS 8:2 (2021) ARTN 021302

Authors:

Xiaoming Yuan, Dong Pan, Yijin Zhou, Xutao Zhang, Kun Peng, Bijun Zhao, Mingtang Deng, Jun He, Hark Hoe Tan, Chennupati Jagadish

Nanowires: a New Horizon for Polarization-resolved Terahertz Time-domain Spectroscopy

Optica Publishing Group (2021) sth2f.1

Authors:

Kun Peng, Dimitars Jevtics, Fanlu Zhang, Sabrina Sterzl, Djamshid A Damry, Mathias U Rothmann, Benoit Guilhabert, Michael J Strain, Hoe Tan, Laura M Herz, Lan Fu, Martin D Dawson, Antonio Hurtado, Chennupati Jagadish, Michael B Johnston

Three-dimensional cross-nanowire networks recover full terahertz state

Science American Association for the Advancement of Science 368:6490 (2020) 510-513

Authors:

Kun Peng, Dimitars Jevtics, Fanlu Zhang, Sabrina Sterzl, Djamshid Damry, Mathias Rothmann, Benoit Guilhabert, Michael J Strain, Hark H Tan, Laura M Herz, Lan Fu, Martin D Dawson, Antonio Hurtado, Chennupati Jagadish, Michael Johnston

Abstract:

Terahertz radiation encompasses a wide band of the electromagnetic spectrum, spanning from microwaves to infrared light, and is a particularly powerful tool for both fundamental scientific research and applications such as security screening, communications, quality control, and medical imaging. Considerable information can be conveyed by the full polarization state of terahertz light, yet to date, most time-domain terahertz detectors are sensitive to just one polarization component. Here we demonstrate a nanotechnology-based semiconductor detector using cross-nanowire networks that records the full polarization state of terahertz pulses. The monolithic device allows simultaneous measurements of the orthogonal components of the terahertz electric field vector without cross-talk. Furthermore, we demonstrate the capabilities of the detector for the study of metamaterials.

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Dr Kun Peng

Research theme

Sub department

Investigation of light–matter interaction in single vertical nanowires in ordered nanowire arrays

Authors:

The application of one-dimensional nanostructures in terahertz frequency devices

Authors:

Selective area epitaxy of III-V nanostructure arrays and networks: Growth, applications, and future directions

Authors:

Nanowires: a New Horizon for Polarization-resolved Terahertz Time-domain Spectroscopy

Authors:

Three-dimensional cross-nanowire networks recover full terahertz state

Authors:

Abstract:

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Dr Kun Peng

Research theme

Sub department

Research groups

Investigation of light–matter interaction in single vertical nanowires in ordered nanowire arrays

Authors:

The application of one-dimensional nanostructures in terahertz frequency devices

Authors:

Selective area epitaxy of III-V nanostructure arrays and networks: Growth, applications, and future directions

Authors:

Nanowires: a New Horizon for Polarization-resolved Terahertz Time-domain Spectroscopy

Authors:

Three-dimensional cross-nanowire networks recover full terahertz state

Authors:

Abstract: