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Journal of Lasers, Optics & Photonics

ISSN: 2469-410X

Open Access

Volume 9, Issue 9 (2022)

Research Article Pages: 1 - 5

PT Symmetry Breaking for Ultraviolet Switchable Lasing to Anti-lasing States.

James N. Monks* and Zengbo Wang

DOI: 10.37421/2469-410X.2022.9.41

The investigation of symmetries inspired by quantum mechanics in optical and photonic systems has generated a great deal of fundamental and technological research. Non-Hermitian physics based on parity-time (PT) symmetry, which was first postulated in research related to quantum mechanics and quantum field theory, is one of the key emerging subjects. The intriguing physical effects made possible by non-Hermitian physics have greatly expended the possibilities for engineering new materials, applications, and technologies. This research reports on a two-dimensional nanoparticle system that can switch between a lasing and anti-lasing state when the PT symmetry is broken. The nanoparticle system consists of a loss-gain balance with silver nanoparticles and a conjectural material derived from the complex conjugate of the permittivity of silver in accordance with PT symmetry conditions. The eigenvalues bifurcation demonstrates that the system is non-Hermitian when symmetry is broken. This research offers the foundations for compact system with applications in many fields where lasers and anti-lasers are required including targeted radiological medicine.

Mini Review Pages: 1 - 2

Characterization of Nanoscale Materials in the Focussed Laser Beam during Fibre Laser Keyhole Welding

Anthony Carol*

DOI: 10.37421/2469-410X.2022.9.43

Laser welding has gotten unprecedented thought as promising getting development along with first rate, high exactness, high extent, high speed, incredible versatility and low mutilation, despite the affirmation of basic and wide applications in light of congeniality with a robot, diminished work, full computerization, systematization, and creation lines, and so on. Thusly, utilizations of laser welding are growing. In laser welding there are two central cycles, to be explicit force conduction welding and significant entry welding. In significant entry laser welding, a slight limited, called keyhole is made in the welded material at energy potential gains of the laser shaft. The course of action of the keyhole overhauls osmosis of the laser energy. Additionally, unique reflection absorption eccentricities on the keyhole wall are particularly math subordinate and vacillate with laser recurrence. Significant entry laser welding is an incredibly confusing cycle and just too some degree grasped. Lately, high-power and high and circle lasers have been created for significant penetration laser welding with most outrageous outcome power.

Review Article Pages: 1 - 2

Laser-induced Liquefaction and Nanoparticle Generation during Laser Ablation

Joshua Sharon*

DOI: 10.37421/2469-410X.2022.9.44

Albeit some laser bar boundaries, for example, laser, frequency and heartbeat length are significant for controlling material handling, the removal climate is additionally a significant calculate laser-material cooperation. For instance presumed that the removal pace of an objective material is significantly improved by utilizing a water repression system at laser ranges they likewise tracked down that in water, the main top to-top sufficiency of the acoustic waves is roughly higher than that in an encompassing climate. Involved a femtosecond laser for removal in a vacuum, air and water for surface changes they showed that the limit upsides of the objective materials were practically indistinguishable in every one of the three conditions. The upsides of Si in the single and multi-beat light system were for, their qualities were, separately.

Google Scholar citation report
Citations: 279

Journal of Lasers, Optics & Photonics received 279 citations as per Google Scholar report

Journal of Lasers, Optics & Photonics peer review process verified at publons

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