Nondestructive Profilometry of Optical Nanofibers
Article Properties
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LanguageEnglish
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DOI (url)
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Publication Date2016/11/21
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Journal
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Indian UGC (journal)
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Refrences30
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Citations12
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Lars S. Madsen Centre for Engineered Quantum Systems, School of Mathematics and Physics, The University of Queensland, Saint Lucia, Brisbane, Queensland 4072, Australia
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Christopher Baker Centre for Engineered Quantum Systems, School of Mathematics and Physics, The University of Queensland, Saint Lucia, Brisbane, Queensland 4072, Australia
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Halina Rubinsztein-Dunlop Centre for Engineered Quantum Systems, School of Mathematics and Physics, The University of Queensland, Saint Lucia, Brisbane, Queensland 4072, Australia
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Warwick P. Bowen Centre for Engineered Quantum Systems, School of Mathematics and Physics, The University of Queensland, Saint Lucia, Brisbane, Queensland 4072, Australia
Cite
Madsen, Lars S., et al. “Nondestructive Profilometry of Optical Nanofibers”. Nano Letters, vol. 16, no. 12, 2016, pp. 7333-7, https://doi.org/10.1021/acs.nanolett.6b02460.
Madsen, L. S., Baker, C., Rubinsztein-Dunlop, H., & Bowen, W. P. (2016). Nondestructive Profilometry of Optical Nanofibers. Nano Letters, 16(12), 7333-7337. https://doi.org/10.1021/acs.nanolett.6b02460
Madsen, Lars S., Christopher Baker, Halina Rubinsztein-Dunlop, and Warwick P. Bowen. “Nondestructive Profilometry of Optical Nanofibers”. Nano Letters 16, no. 12 (2016): 7333-37. https://doi.org/10.1021/acs.nanolett.6b02460.
Madsen LS, Baker C, Rubinsztein-Dunlop H, Bowen WP. Nondestructive Profilometry of Optical Nanofibers. Nano Letters. 2016;16(12):7333-7.
Journal Categories
Science
Chemistry
Science
Chemistry
General
Including alchemy
Science
Chemistry
Physical and theoretical chemistry
Science
Physics
Technology
Chemical technology
Technology
Electrical engineering
Electronics
Nuclear engineering
Materials of engineering and construction
Mechanics of materials
Refrences
| Title | Journal | Journal Categories | Citations | Publication Date |
|---|---|---|---|---|
| Optical Waveguide theory | 2012 | |||
| 10.1117/12.2276649 | ||||
Tapered nanofiber trapping of high-refractive-index nanoparticles | Applied Physics Letters |
| 14 | 2013 |
| Single Nanoparticle Detection and Sizing Using a Nanofiber Pair in an Aqueous Environment | Advanced Materials |
| 61 | 2014 |
| Inhomogeneous broadening of optical transitions of 87Rb atoms in an optical nanofiber trap | Journal of Physics B: Atomic, Molecular and Optical Physics |
| 21 | 2015 |
Citations
| Title | Journal | Journal Categories | Citations | Publication Date |
|---|---|---|---|---|
In situ characterization of optical micro/nano fibers using scattering loss analysis | Journal of Applied Physics |
| 2024 | |
Atom-light interactions using optical nanofibres—a perspective | Journal of Physics: Photonics |
| 2024 | |
The trend of structured light-induced force microscopy: a review | Journal of Optics |
| 3 | 2023 |
| Measurement of diameter of sub-micrometer fiber based on analysis of scattered light intensity distribution under standing wave illumination | CIRP Annals |
| 2022 | |
| Slow-Light-Enhanced Optical Imaging of Microfiber Radius Variations with Subangstrom Precision | Physical Review Applied |
| 2020 |
Citations Analysis
The category
Science: Physics 11
is the most commonly referenced area in studies that cite this article. The first research to cite this article was titled Nondestructive measurement of nanofiber diameters using microfiber tip and was published in 2018. The most recent citation comes from a 2024 study titled Atom-light interactions using optical nanofibres—a perspective. This article reached its peak citation in 2019, with 3 citations. It has been cited in 7 different journals, 28% of which are open access. Among related journals, the Journal of Optics cited this research the most, with 3 citations. The chart below illustrates the annual citation trends for this article.