iseikonic lens - ορισμός. Τι είναι το iseikonic lens
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Τι (ποιος) είναι iseikonic lens - ορισμός

TRANSPARENT STRUCTURE IN THE EYE
Crystalline lens; Crystalline eye lens; Natural ocular lens; Lens (vision); Lens of the eye; Lens diseases; Lens, crystalline; Eye lens; Lens cortex; Lens nucleus; Lens (eye); Lens disease; Lens fiber; Embryonic development of the human lens; Lens (anatomy)
  • Bony fish eye. Note the spherical lens and muscle to pull the lens backward
  • Bony fish eye. Note the spherical lens and muscle to pull the lens backward
  • Left to right: smooth capsule, small patch of epithelium, fused lens fibers or perhaps a void, fibers, wrinkled fibers
  • Sheep lens capsule removed. Decapsulation leads to a nearly formless blob.
  • Diving bird (Cormorant) lens focusing can be up to 80 dioptres for clearer underwater vision.
  •  Eye and detailed ray path including one intraocular lens layer
  • Fibers from lens nucleus
  • Tracing of Scheimpflug photographs of 20 year old human lens being thicker focusing near and thinner when focusing far. Internal layering of the lens is also significant
  • Cellular and supercellular structure in the mouse lens. Photos at increasing depth: A-Epithelium B-Broadening fiber ends C-Fiber ends lock together D-F- Voids G-Vacuoles I-Sutures
  • Channels regulate lens transport.
  • Lens diagram with photos
  • Similar to a human, this is a lens forming in a chicken eye
  • Microscope image of lens cell types and capsule
  • Ligament connection to mouse capsule forming part of the Zonule of Zinn
  • Lens fibers from mid to outer cortex. Balls of the ball and sockets can be seen protruding for the corners of cells in the lower picture
  • Pattern of lens fibers (anterior and lateral aspect)
  • Schachar model of lens focus
  • Sheep eye lens para-formaldehyde fixed front view. Small lenses are about 1cm in diameter. Small bumps at edge are remnants of suspensory ligaments
  • Sheep lens fixed side view. Note the largest lens has damaged capsule and iris attached
  • Wrinkled lens fibers in picture below compared to straight fibers above

Lens (hydrology)         
  • A freshwater lens on an island.
CONVEX LAYER OF FRESH GROUNDWATER THAT FLOATS ON TOP OF DENSER SALTWATER
User:Nsaum75/Lens (groundwater); User:Nsaum75/Lens (Hydrology); User:Nsaum75/Lens (hydrology); Lens (groundwater); Freshwater lens; Ghyben-Herzberg lenses; Ghyben–Herzberg lens; Ghyben-Herzberg lens; Ghyben/Herzberg lens; Groundwater lens
In hydrology, a lens, also called freshwater lens or Ghyben-Herzberg lens, is a convex-shaped layer of fresh groundwater that floats above the denser saltwater and is usually found on small coral or limestone islands and atolls. This aquifer of fresh water is recharged through precipitation that infiltrates the top layer of soil and percolates downward until it reaches the saturated zone.
Lens (plant)         
GENUS OF PLANTS
Lens (genus); Lentilla
Lens is a genus of flowering plant in the legume family mostly known for its edible seeds, which are referred to as lentils. Lens contains four species of small, erect or climbing herbs with pinnate leaves, small inconspicuous white flowers, and small flattened pods.
Stokes lens         
OPHTHALMIC LENS
Stokes' lens
Stokes lens also known as variable power cross cylinder lens is a lens used to diagnose a type of refractive error known as astigmatism.

Βικιπαίδεια

Lens (vertebrate anatomy)

The lens, or crystalline lens, is a transparent biconvex structure in most land vertebrate eyes. Along with the cornea, aqueous and vitreous humours it refracts light, focusing it onto the retina. In many land animals the shape of the lens can be altered, effectively changing the focal length of the eye, enabling them to focus on objects at various distances. This adjustment of the lens is known as accommodation (see also below). In many fully aquatic vertebrates such as fish other methods of accommodation are used such as changing the lens's position relative to the retina rather than changing lens shape. Accommodation is analogous to the focusing of a photographic camera via changing its lenses. In land vertebrates the lens is flatter on its anterior side than on its posterior side, while in fish the lens is often close to spherical.

Accommodation in humans is well studied to allow artificial means of supplementing our focus such as glasses for correction of sight as we age. The refractive power of a younger human lens in its natural environment is approximately 18 dioptres, roughly one-third of the eye's total power of about 60 dioptres at infancy and 10 dioptres by the age of 25 years. Most of the reduction in our natural accommodation as we age is attributed to the aging of our lenses.