D-Index & Metrics Best Publications

D-Index & Metrics D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines.

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Electronics and Electrical Engineering D-index 75 Citations 18,384 585 World Ranking 379 National Ranking 14
Physics D-index 75 Citations 17,930 504 World Ranking 2616 National Ranking 70

Research.com Recognitions

Awards & Achievements

2015 - OSA Fellows Tanya Monro University of South Australia, Australia For scientific contributions of international significance to optical glass materials and fibers, photonics and optical physics, most notably in nanophotonics for nonlinear optics and sensing.

2012 - Pawsey Medal, Australian Academy of Science

2012 - Fellow of the Australian Academy of Science

Overview

What is she best known for?

The fields of study she is best known for:

  • Optics
  • Quantum mechanics
  • Laser

Tanya M. Monro spends much of her time researching Optics, Optical fiber, Photonic-crystal fiber, Optoelectronics and Zero-dispersion wavelength. Her study in Refractive index, Dispersion-shifted fiber, Wavelength, Microstructured optical fiber and Dispersion is done as part of Optics. Her Refractive index research is multidisciplinary, incorporating elements of Chalcogenide glass and Modal.

Her biological study spans a wide range of topics, including Nanotechnology, Fiber, Composite material, Core and Photonic crystal. The study incorporates disciplines such as Polarization-maintaining optical fiber, Graded-index fiber, Plastic-clad silica fiber, Hard-clad silica optical fiber and All-silica fiber in addition to Photonic-crystal fiber. Her work on Chalcogenide, Luminescence and Tellurite glass as part of her general Optoelectronics study is frequently connected to Gallium, thereby bridging the divide between different branches of science.

Her most cited work include:

  • Single-nanocrystal sensitivity achieved by enhanced upconversion luminescence (400 citations)
  • Holey optical fibers: an efficient modal model (374 citations)
  • Sensing with microstructured optical fibres (301 citations)

What are the main themes of her work throughout her whole career to date?

Her primary scientific interests are in Optics, Optical fiber, Optoelectronics, Photonic-crystal fiber and Fiber. Refractive index, Nonlinear optics, Laser, Graded-index fiber and Zero-dispersion wavelength are the primary areas of interest in her Optics study. Her work focuses on many connections between Refractive index and other disciplines, such as Whispering-gallery wave, that overlap with her field of interest in Lasing threshold and Q factor.

Her study focuses on the intersection of Optical fiber and fields such as Nanotechnology with connections in the field of Surface modification. Fiber laser, Doping, Photonic crystal, Resonator and Wavelength are among the areas of Optoelectronics where the researcher is concentrating her efforts. Her Photonic-crystal fiber research includes themes of Plastic optical fiber, Polarization-maintaining optical fiber, Plastic-clad silica fiber, Hard-clad silica optical fiber and All-silica fiber.

She most often published in these fields:

  • Optics (62.60%)
  • Optical fiber (53.89%)
  • Optoelectronics (44.89%)

What were the highlights of her more recent work (between 2015-2020)?

  • Optoelectronics (44.89%)
  • Optical fiber (53.89%)
  • Optics (62.60%)

In recent papers she was focusing on the following fields of study:

Her primary areas of investigation include Optoelectronics, Optical fiber, Optics, Fiber and Laser. Her Optoelectronics research includes elements of Dipole, Coating and Core. Her work carried out in the field of Optical fiber brings together such families of science as Skew, Excitation and Biomedical engineering.

Her study in Optics concentrates on Photonic-crystal fiber, Wavelength, Fiber laser, Dispersion and Zero-dispersion wavelength. Her Photonic-crystal fiber research incorporates themes from Plastic optical fiber, Plastic-clad silica fiber, Graded-index fiber, Hard-clad silica optical fiber and All-silica fiber. Her Laser study incorporates themes from Waveguide, Chip and Pulse.

Between 2015 and 2020, her most popular works were:

  • Plasmonic Fiber Optic Refractometric Sensors: From Conventional Architectures to Recent Design Trends (107 citations)
  • Magnetically sensitive nanodiamond-doped tellurite glass fibers. (84 citations)
  • Magnetically sensitive nanodiamond-doped tellurite glass fibers. (84 citations)

In her most recent research, the most cited papers focused on:

  • Optics
  • Quantum mechanics
  • Laser

Tanya M. Monro mainly focuses on Optoelectronics, Optical fiber, Optics, Fiber and Whispering-gallery wave. Her research integrates issues of Core, Microfiber, Dipole, Excitation and Coating in her study of Optoelectronics. She has researched Optical fiber in several fields, including Nanotechnology, Autofluorescence and Doping.

Her Optics study is mostly concerned with Photonic-crystal fiber, Wavelength, Dispersion, Optical cavity and Ultrashort pulse. She interconnects Hard-clad silica optical fiber and Graded-index fiber in the investigation of issues within Photonic-crystal fiber. Tanya M. Monro combines subjects such as Active laser medium, Nonlinear optics, Refractive index and Lasing threshold with her study of Whispering-gallery wave.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

Holey optical fibers: an efficient modal model

T.M. Monro;D.J. Richardson;N.G.R. Broderick;P.J. Bennett.
Journal of Lightwave Technology (1999)

687 Citations

Single-nanocrystal sensitivity achieved by enhanced upconversion luminescence

Jiangbo Zhao;Dayong Jin;Erik P. Schartner;Yiqing Lu.
Nature Nanotechnology (2013)

575 Citations

Nonlinearity in holey optical fibers: measurement and future opportunities

N.G.R. Broderick;T.M. Monro;P.J. Bennett;D.J. Richardson.
Optics Letters (1999)

550 Citations

Sensing with microstructured optical fibres

Tanya M Monro;Walter Belardi;Kentaro Furusawa;Joanne C Baggett.
Measurement Science and Technology (2001)

495 Citations

Holey fibers with random cladding distributions.

Tanya M. Monro;P. J. Bennett;N. G. R. Broderick;D. J. Richardson.
Optics Letters (2000)

334 Citations

A full vectorial model for pulse propagation in emerging waveguides with subwavelength structures part I: Kerr nonlinearity

V Shahraam Afshar;Tanya M. Monro.
Optics Express (2009)

333 Citations

Chalcogenide holey fibres

T.M. Monro;Y.D. West;Daniel Hewak;N.G.R. Broderick.
Electronics Letters (2000)

332 Citations

Bismuth glass holey fibers with high nonlinearity

Heike Ebendorff-Heidepriem;Periklis Petropoulos;S. Asimakis;V. Finazzi.
Optics Express (2004)

314 Citations

Inverse design and fabrication tolerances of ultra-flattened dispersion holey fibers

F. Poletti;V. Finazzi;T.M. Monro;N.G.R. Broderick.
Optics Express (2005)

286 Citations

Terahertz dielectric waveguides

Shaghik Atakaramians;V Shahraam Afshar;Tanya M. Monro;Derek Abbott.
Advances in Optics and Photonics (2013)

278 Citations

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