Josef F. Bille scite author profile

A Hartmann-Shack wave-front sensor is used to measure the wave aberrations of the human eye by sensing the wave front emerging from the eye produced by the retinal reflection of a focused light spot on the fovea. Since the test involves the measurements of the local slopes of the wave front, the actual wave front is reconstructed by the use of wave-front estimation with Zernike polynomials. From the estimated Zernike coefficients of the tested wave front the aberrations of the eye are evaluated. It is shown that with this method, using a Hartmann-Shack wave-front sensor, one can obtain a fast, precise, and objective measurement of the aberrations of the eye.

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Second harmonic generation imaging of collagen fibrils in cornea and sclera

Han¹,

Giese²,

Bille³

2005

Opt. Express

271

193

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Collagen, as the most abundant protein in the human body, determines the unique physiological and optical properties of the connective tissues including cornea and sclera. The ultrastructure of collagen, which conventionally can only be resolved by electron microscopy, now can be probed by optical second harmonic generation (SHG) imaging. SHG imaging revealed that corneal collagen fibrils are regularly packed as a polycrystalline lattice, accounting for the transparency of cornea. In contrast, scleral fibrils possess inhomogeneous, tubelike structures with thin hard shells, maintaining the high stiffness and elasticity of the sclera.

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Corneal refractive surgery with femtosecond lasers

Juhász

Loesel

Kurtz³

et al. 1999

IEEE J. Select. Topics Quantum Electron.

336

182

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Active optical depth resolution improvement of the laser tomographic scanner

1989

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Laser scanning tomography can be used to assess retinal nerve fiber layer thickness and optic disc topography of the human eye. A pinhole is located at a plane conjugate to the focal plane of the scanning laser beam. This so-called confocal configuration assures that only the light originating from the illuminated focal plane on the retina passes through the pinhole and is detected by the photomultiplier. Consequently, images with high spatial resolution in all directions are obtained. An active optical system (active mirror) further improves the lateral/depth resolution of the laser tomographic scanner. By partially compensating for the optical aberrations introduced by the cornea and lens, the active optical system allows the illuminating beam to be enlarged to 6 mm, thus improving depth resolution twofold.

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Laser-induced optical breakdown on hard and soft tissues and its dependence on the pulse duration: experiment and model

Loesel

Niemz

Bille

et al. 1996

IEEE J. Quantum Electron.

132

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Josef F. Bille

Objective measurement of wave aberrations of the human eye with the use of a Hartmann–Shack wave-front sensor

Second harmonic generation imaging of collagen fibrils in cornea and sclera

Corneal refractive surgery with femtosecond lasers

Active optical depth resolution improvement of the laser tomographic scanner

Laser-induced optical breakdown on hard and soft tissues and its dependence on the pulse duration: experiment and model

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