Dataset for Tracking Chirality Evolution in Tellurium Nanocrystals via Polarization-Resolved Second-Harmonic Scattering

The data includes the different features of three types of chiral forms from Te nanocrystals. Figure 1 contains the g factor of linear circular dichroism from shape chirality, defect chirality and reduced-chirality. Figure 2 shows the second harmonic scattering measurements of these three types of chiral nanocrystals, as well as their nonlinear g factor. This proves the high sensitivity of second harmonic scattering. Figure 3 and Figure 4 shows the polarization analysis of second harmonic scattering signals from these nanocrystals under right-angled and forward directions, revealing distinctive features of scattering patterns.

Subjects:

Chemical measurement

Analytical Science

Optics, photonics and lasers

Optical Phenomena

Plasma physics

Plasmas - Technological

Cite this dataset as:
Ji, R., Reuven, B., Kerrigan, B., Markovich, G., Valev, V., 2026. Dataset for Tracking Chirality Evolution in Tellurium Nanocrystals via Polarization-Resolved Second-Harmonic Scattering. Bath: University of Bath Research Data Archive. Available from: https://doi.org/10.15125/BATH-01658.

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Data

Figure 1.xlsx
application/vnd.openxmlformats-officedocument.spreadsheetml.sheet (19kB)
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Figure 1 shows the evolution of crystal and shape chirality in Te nanocrystals, by linear dissymmetry (g-factor) spectra.

Figure 2.xlsx
application/vnd.openxmlformats-officedocument.spreadsheetml.sheet (42kB)
Creative Commons: Attribution 4.0

Figure 2 shows the second-harmonic chiroptical contrast despite reduced shape chirality.

Figure 3.xlsx
application/vnd.openxmlformats-officedocument.spreadsheetml.sheet (104kB)
Creative Commons: Attribution 4.0

Figure 3 shows the dual-circular polarization signatures in SH right-angled (⊥) scattering despite reduced shape chirality.

Figure 4.xlsx
application/vnd.openxmlformats-officedocument.spreadsheetml.sheet (99kB)
Creative Commons: Attribution 4.0

Figure 4 shows the dual-circular polarization signatures in SH forward (∥) scattering despite reduced shape chirality.

Creators

Ruidong Ji
University of Bath

0000-0003-0641-5891

Bar Reuven
Tel Aviv University

Brad Kerrigan
University of Bath

0009-0001-0544-3957

Gil Markovich
Tel Aviv University

0000-0002-4047-189X

Ventsislav Valev
University of Bath

0000-0001-9951-1836

Contributors

University of Bath
Rights Holder

Funders

Leverhulme Trust
https://doi.org/10.13039/501100000275

Grant
RP-G202-2-344

Engineering and Physical Sciences Research Council
https://doi.org/10.13039/501100000266

Industrial CASE Account – University of Bath 2019
EP/T517495/1

NSF-EPSRC
https://doi.org/10.13039/501100000266

CHIRONN: CHIROptical Nonlinearity in Nanoparticles
UKRI1462

Publication details

Publication date: 15 June 2026
by: University of Bath

Version: 1

DOI: https://doi.org/10.15125/BATH-01658

URL for this record: https://researchdata.bath.ac.uk/1658

Related papers and books

Ji, R., Reuven, B., Kerrigan, B., Markovich, G., and Valev, V. K., 2026. Tracking Chirality Evolution in Tellurium Nanocrystals Via Polarization-Resolved Second-Harmonic Scattering. Nano Letters. Available from: https://doi.org/10.1021/acs.nanolett.6c01271.

Contact information

Please contact the Research Data Service in the first instance for all matters concerning this item.

Contact person: Ruidong Ji

Departments:

Faculty of Science
Physics

Research Centres & Institutes
Centre for Photonics and Photonic Materials