Add to ORKGWe present a new method to measure thickness and index of refraction of glass windows and slab, typically from a few micrometers to 1000 micrometers and over. We use a very simple setup yielding two optical phase shift readouts: one from a self-mixing interferometer based on the beam crossing the specimen, going to an external mirror and back to the laser retracing the path, and one based on a conventional, forwardgoing shear interferometer based on the double reflection at the slab walls. We show that, interestingly and unique to our method, the difference of the two phase shift readouts provides the thickness measurement, independent from refractive index. We then go back to one of the two readouts to solve for the index of re...
An alternative polarization phase-shifting technique is proposed to determine the thickness of trans...
Because the phase shift on reflection is a function of the optical properties, it provides an excell...
Thesis (M.S.)--University of Rochester. College of Engineering and Applied Science. Institute of Opt...
We present a new method to measure thickness and index of refraction of glass windows and slab, typ...
We introduce a technique to measure transparent glass slab thickness. It employs a very simple setup...
A new method for the measurement of thickness d and index of refraction n of transparent slabs is pr...
Method to accurately measure both refractive index and the thickness of glass is investigated. The m...
International audienceFor a long time, obtaining the optical and morphological properties of a trans...
The interference method for simultaneous measurement of the absolute refractive index and the thick...
A self-mixing interferometer is proposed to detect the change of refractive index of a sample. As li...
A new method based on self-mixing interference (SMI) for refractive index measurement by means of si...
The optical power of a lens is determined by the surface curvature and the refractive index, n. Know...
An experimental method for the refraction index measurement of transparent materials is described ba...
Spectrally resolved white-light phase-shifting interferometry has been used for accurate measurement...
A liquid-cell shearing interferometer was developed to measure refractive-index variations (Δn) in t...
An alternative polarization phase-shifting technique is proposed to determine the thickness of trans...
Because the phase shift on reflection is a function of the optical properties, it provides an excell...
Thesis (M.S.)--University of Rochester. College of Engineering and Applied Science. Institute of Opt...
We present a new method to measure thickness and index of refraction of glass windows and slab, typ...
We introduce a technique to measure transparent glass slab thickness. It employs a very simple setup...
A new method for the measurement of thickness d and index of refraction n of transparent slabs is pr...
Method to accurately measure both refractive index and the thickness of glass is investigated. The m...
International audienceFor a long time, obtaining the optical and morphological properties of a trans...
The interference method for simultaneous measurement of the absolute refractive index and the thick...
A self-mixing interferometer is proposed to detect the change of refractive index of a sample. As li...
A new method based on self-mixing interference (SMI) for refractive index measurement by means of si...
The optical power of a lens is determined by the surface curvature and the refractive index, n. Know...
An experimental method for the refraction index measurement of transparent materials is described ba...
Spectrally resolved white-light phase-shifting interferometry has been used for accurate measurement...
A liquid-cell shearing interferometer was developed to measure refractive-index variations (Δn) in t...
An alternative polarization phase-shifting technique is proposed to determine the thickness of trans...
Because the phase shift on reflection is a function of the optical properties, it provides an excell...
Thesis (M.S.)--University of Rochester. College of Engineering and Applied Science. Institute of Opt...