Ewan M. Wright

What is he best known for?

The fields of study he is best known for:

• Quantum mechanics
• Optics
• Laser

His scientific interests lie mostly in Optics, Nonlinear optics, Nonlinear system, Condensed matter physics and Atomic physics. His study in Light beam, Self-phase modulation, Femtosecond, Optical switch and Wave propagation falls under the purview of Optics. His study in Nonlinear optics is interdisciplinary in nature, drawing from both Kerr effect, Power dividers and directional couplers, Electric field and Optoelectronics, Waveguide.

Ewan M. Wright combines subjects such as Computational physics, Guided wave testing and Refractive index with his study of Nonlinear system. As a part of the same scientific study, Ewan M. Wright usually deals with the Condensed matter physics, concentrating on Bistability and frequently concerns with Hysteresis, Field propagation, Field and Optical bistability. The Atomic physics study combines topics in areas such as Dipole, Bose–Einstein condensate, Ultracold atom, Zeeman effect and Sigma.

His most cited work include:

• Quantum dynamics of an atomic Bose-Einstein condensate in a double-well potential (714 citations)
• Dynamic spatial replenishment of femtosecond pulses propagating in air (392 citations)
• Third order nonlinear integrated optics (324 citations)

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

Ewan M. Wright mainly focuses on Optics, Nonlinear system, Quantum mechanics, Nonlinear optics and Atomic physics. His work in Femtosecond, Laser, Beam, Wave propagation and Self-focusing are all subfields of Optics research. His Beam study incorporates themes from Light beam, Vortex, Diffraction and Angular momentum.

His Nonlinear system study combines topics from a wide range of disciplines, such as Quantum electrodynamics and Guided wave testing. His Nonlinear optics research includes themes of Waveguide, Power dividers and directional couplers, Kerr effect and Refractive index. His Atomic physics research is multidisciplinary, incorporating perspectives in Dipole and Filamentation.

He most often published in these fields:

• Optics (60.38%)
• Nonlinear system (22.03%)
• Quantum mechanics (22.46%)

What were the highlights of his more recent work (between 2012-2020)?

• Angular momentum (13.14%)
• Optics (60.38%)
• Quantum mechanics (22.46%)

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

Ewan M. Wright focuses on Angular momentum, Optics, Quantum mechanics, Nonlinear system and Photon. Ewan M. Wright interconnects Beam, Rotation and Atomic physics in the investigation of issues within Angular momentum. His research in Atomic physics intersects with topics in Ultrashort pulse, Filamentation and Excitation.

His Light field, Laser, Femtosecond, High harmonic generation and Self-focusing study are his primary interests in Optics. In general Nonlinear system, his work in Nonlinear optics is often linked to Parametric statistics linking many areas of study. His studies in Photon integrate themes in fields like Condensed matter physics, Superfluidity, Molecular physics, Quantum computer and Diffraction.

Between 2012 and 2020, his most popular works were:

• Dynamics of microparticles trapped in a perfect vortex beam (152 citations)
• Characteristics of two-dimensional quantum turbulence in a compressible superfluid. (102 citations)
• Electromagnetic-force distribution inside matter (49 citations)

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

• Quantum mechanics
• Optics
• Laser

His primary areas of investigation include Angular momentum, Quantum mechanics, Beam, Molecular physics and Topological quantum number. His Angular momentum study combines topics in areas such as Light beam and Gaussian. In the subject of general Quantum mechanics, his work in Quantum computer, Superfluidity, Photon and Soliton is often linked to European research, thereby combining diverse domains of study.

His Beam research focuses on Diffraction and how it connects with Rayleigh scattering, Mathematical analysis and Bessel function. His work in Vortex covers topics such as Particle which are related to areas like Optics, Radius, Constant angular velocity, Field and Mesoscopic physics. His Optics research is multidisciplinary, incorporating elements of Ionization, Orders of magnitude and Rotation.

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