optics$55396$ - перевод на греческий
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optics$55396$ - перевод на греческий

ELECTRON TRAJECTORIES IN ELECTROMAGNETIC FIELDS
Electron Optics; Beam optics
  • Magnetic lens

optics      
n. οπτική
optical fibre         
  • Cross-section of a fiber drawn from a D-shaped '''preform'''
  • Colladon's "light fountain"
  • Diffuse reflection
  • An overview of the operating principles of the optical fiber
  • A [[TOSLINK]] fiber optic audio cable with red light shone in one end
  • A [[frisbee]] illuminated by fiber optics
  • acrylic]] rod, illustrating the total internal reflection of light in a multi-mode optical fiber.
  • An optical fiber lamp
  • Illustration of the modified chemical vapor deposition (inside) process
  • Light reflected from optical fiber illuminates exhibited model
  • multi-mode fibers]].
  • The propagation of light through a [[multi-mode optical fiber]].
  • An aerial optical fiber splice enclosure lowered during installation. The individual fibers are fused and stored within the enclosure for protection from damage
  • An [[optical fiber cable]]
  • Optical fiber types
  • The P<sub>4</sub>O<sub>10</sub> cagelike structure—the basic building block for phosphate glass
  • Specular reflection
  • ST connectors]] on [[multi-mode fiber]]
  • Theoretical loss spectra (attenuation, dB/km) for Silica optical fiber (dashed blue line) and typical ZBLAN optical fiber (solid gray line) as a function of wavelength (microns).
  • Experimental attenuation curve of low loss multimode silica and ZBLAN fiber. Black triangle points and gray arrows illustrate a four order of magnitude reduction in the attenuation of silica optical fibers over four decades from ~1000&nbsp;dB/km in 1965 to ~0.17&nbsp;dB/km in 2005.
  • The structure of a typical [[single-mode fiber]].<br />
1. Core: 8&nbsp;µm diameter<br />
2. Cladding: 125&nbsp;µm dia.<br />
3. Buffer: 250&nbsp;µm dia.<br />
4. Jacket: 400&nbsp;µm dia.
LIGHT-CONDUCTING FIBER
Fiber optic; Fiber optics; Fibre optics; Fibre optic; Fibre-optic; Fiber-optic; Fiber-optics; Fibre-optics; Fibre Optics; Fiber Optics; Optic fibre; Optic fiber; Fiberoptics; Weakly guiding fiber; Optical fibers; Fiberoptic; Optical fibres; Fiber-Optic Cable; Cable, Fiber-Optic; Optical fibre; Optic Fiber; Optic Fibre; Optical Fibre; Optical Fiber; Fibreoptics; Optical Fibers; Principle and propagation of light in optical fibre; Fibre-optic networks; Fibre Optic; Fiber Optic; Fiber optic cabling; Fiber fuse; Tapered optical fiber; History of fiber optics; Fiber-optic technology; Applications of optical fiber; Applications of fiber optics; Optical-fiber lamp; Optical fiber system; History of optical fiber; Fiber optic technology
οπτική ίνα
convex lens         
  • 400px
  • Close-up view of a flat [[Fresnel lens]].
  • LSST]], a planned sky surveying telescope
  • 250px
  • 400px
  • Lenses can be used to focus light
  • Types of lenses
  • Meniscus lenses: negative (top) and positive (bottom)
  • Light being refracted by a spherical glass container full of water. [[Roger Bacon]], 13th century
  • An aspheric biconvex lens.
  • The position of the focus of a spherical lens depends on the radii of curvature of the two facets.
  • A watch with a plano-convex lens over the date indicator
  • Images of black letters in a thin convex lens of focal length ''f'' are shown in red. Selected rays are shown for letters '''E''', '''I''' and '''K''' in blue, green and orange, respectively. '''E''' (at 2''f'') has an equal-size, real and inverted image; '''I''' (at ''f'') has its image at [[infinity]]; and '''K''' (at ''f''/2) has a double-size, virtual and upright image.
OPTICAL DEVICE WHICH TRANSMITS AND REFRACTS LIGHT
Convex lens; Concave lens; Lenses; Optical lens; Thin Lens Formula; Thin lens formula; Lens maker's formula; Lens Maker's Formula; Lens formula; Lens Formula; Diverging lens; Lens maker equation; Lensmaker's equation; Lens maker's equation; Lens makers equation; Converging lens; Biconvex lens; Biconcave lens; Convex Lens; Meniscus lens; Crystal Lens; Curved lens; Spherical lens; Convex lenses; Compound lens; Lensmaker's formula; Lensmakers' equation; Lensmakers' forumula; Lensmakers forumula; Lensmakers equation; Lensmaker equation; Lensmaker formula; Plano-convex lens; Double convex lens; Plano-concave lens; Convex-concave lens; Negative lens; Equiconvex lens; Real-is-positive convention; Lens equation; Biconcave; Planoconcave; Plus lens; Convexo-concave lens; Minus lens; Conventional lens; LENS; Singlet (lens); Double-convex lens; Double concave lens; Double-concave lens; Bi-convex lens; Bi-concave lens; Double-convex converging lens; Double convex converging lens; Biconvex converging lens; Bi-convex converging lens; Double-concave diverging lens; Biconcave diverging lens; Bi-concave diverging lens; Double concave diverging lens; Meniscus (optics); Positive lens; Plano-concave; Planoconvex lens; Lens (optics); Optical lenses
κυρτός φακός

Определение

electron optics
¦ plural noun [treated as sing.] the branch of physics concerned with the behaviour of electrons in magnetic and electric fields.

Википедия

Electron optics

Electron optics is a mathematical framework for the calculation of electron trajectories along electromagnetic fields. The term optics is used because magnetic and electrostatic lenses act upon a charged particle beam similarly to optical lenses upon a light beam.

Electron optics calculations are crucial for the design of electron microscopes and particle accelerators. In the paraxial approximation, trajectory calculations can be carried out using ray transfer matrix analysis.