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Laser Shenanigans: Lighting Cigarettes and Igniting Curiosity (Safely!)

Shenanigans au laser : allumer des cigarettes et attiser la curiosité (en toute sécurité !)

Ramasse-le

Expérience 2 : Le casse-tête de la cigarette

Mais ce n'est pas tout ! Nous avons également testé la capacité du laser à allumer une cigarette. Cette fois, il n'a fallu que 15 secondes au laser pour chauffer le tabac et enflammer la pointe. Et si vous trouvez cela impressionnant, attendez de voir ce qui se passe lorsque le laser est pointé sur un journal... Fouuuh !

Le côté obscur des lasers

Bien que ces expériences soient intéressantes, elles mettent également en évidence les dangers potentiels des lasers à haute puissance. N'oubliez pas que les faisceaux laser peuvent être aussi puissants que fascinants. Regarder directement le faisceau peut provoquer lésions oculaires et même cécité . Et n'oublions pas le risque d'incendie : ces lasers peuvent facilement enflammer des matériaux inflammables !

Alors, quel est le message à retenir ?

Les lasers de grande puissance sont des outils étonnants dotés d'un potentiel incroyable. Mais comme tout outil puissant, ils doivent être manipulés avec soin. avec soin et respect. Gardez-les loin de vos yeux et ne les pointez jamais vers des personnes ou des objets inflammables. Et si vous êtes parent, gardez ces lasers hors de portée des enfants curieux.

Maintenant, allez-y et explorez les merveilles des lasers, mais n'oubliez jamais de rester en sécurité et de vous amuser !

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Beam quality factor is the main parameter to characterize the transverse pattern of high-power lasers, and in order to solve the problem that the current beam quality analyzer can only be used for beam quality evaluation of small-aperture and low-power lasers, the principle and simulation of attenuation and beam reduction technology for beam quality measurement of high-power lasers were studied. The simulation model of the attenuation and shrinking beam component is established, and the thermally induced aberrations of optical components under high-power laser are studied by using the finite element method, and it is concluded that when the peak-to-trough (PV) value of thermally induced aberrations is less than 82 nm, the influence on the beam quality factor is less than 5%. As the beam passes through the attenuation component, if debias occurs, the beam quality factor will be smaller. Based on the Zenic polynomial and the beam quality factor calculation model, the influence of the wavefront distortion of the beam shrinking component on the measurement is studied and analyzed, and it is seen through the Zemax simulation analysis that the influence on the beam quality factor measurement is less than 5% when the angle of view between the incident light and the center optical axis of the beam shrinking component is less than 7° during the assembly and adjustment.
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Depth: Research progress of high-power semiconductor lasers

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Laser is another major invention of mankind since the 20th century, after atomic energy, electronic computers, and semiconductors. Semiconductor laser science and technology takes semiconductor laser devices as the core, covering the study of the law, generation method, device technology, control means and application technology of stimulated radiation amplification of light, and the required knowledge integrates geometric optics, physical optics, semiconductor electronics, thermodynamics and other disciplines.

After more than 50 years of development, semiconductor laser, as a world-class research direction, has developed by leaps and bounds along with international scientific and technological progress, and has also benefited from breakthroughs in various related technologies, materials and processes. The progress of semiconductor laser has received great attention and attention in the international scope, not only in the field of basic science and continuous research and deepening, the level of science and technology continues to improve, but also in the field of application continues to expand and innovate, the application of technology and equipment emerge in an endless stream, the application level has also been greatly improved, in the national economic development of all countries in the world, especially in the fields of information, industry, medical and national defense has been an important application.

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