Apparatus and method for measuring refractive index
First Claim
1. An interference refractometer comprising beam splitting means arranged to divide an incident beam of electromagnetic radiation into first and second spaced parallel partial beams having components of substantially equal intensity in two orthogonal directions of radiation, reflection means spaced from the beam splitting means and arranged to reflect said first partial beam along its path to said reflection means and said second partial beam along a parallel path, a test device positioned between the beam splitting means and the reflection means so that said first partial beam will traverse a path of known length therein, phase shifting means arranged to introduce a phase shift of substantially 90 degrees between radiation polarised in two orthogonal directions in one of the two partial beams, a polarising beam splitter arranged to receive from the beam splitting means radiation having components of substantially equal intensity derived from the first and second partial beams, first and second radiation sensing means each arranged to receive from the polarising beam splitter radiation polarised at one of said two orthogonal directions, third radiating sensing means arranged to receive from the beam splitting means radiation derived only from the second partial beam and signal subtraction means for extracting a signal derived from the third sensing means from each of the first and second sensing means.
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Accused Products
Abstract
An interference refractometer of the Jamin type includes a beam splitter (14) arranged to split light from a laser source (12) into two partial beams BM, BR one of which passes through a test cell (20) adapted to contain a fluid medium. One component (BR) of the reference partial beam passes through a phase plate which introduces a 90 degree phase shift. The partial beams are detected by photodetectors (38, 44, 46) the outputs of which are coupled to counter circuits (not shown) to provide an output which is independent of changes in the mean level of the optical input signals.
209 Citations
8 Claims
- 1. An interference refractometer comprising beam splitting means arranged to divide an incident beam of electromagnetic radiation into first and second spaced parallel partial beams having components of substantially equal intensity in two orthogonal directions of radiation, reflection means spaced from the beam splitting means and arranged to reflect said first partial beam along its path to said reflection means and said second partial beam along a parallel path, a test device positioned between the beam splitting means and the reflection means so that said first partial beam will traverse a path of known length therein, phase shifting means arranged to introduce a phase shift of substantially 90 degrees between radiation polarised in two orthogonal directions in one of the two partial beams, a polarising beam splitter arranged to receive from the beam splitting means radiation having components of substantially equal intensity derived from the first and second partial beams, first and second radiation sensing means each arranged to receive from the polarising beam splitter radiation polarised at one of said two orthogonal directions, third radiating sensing means arranged to receive from the beam splitting means radiation derived only from the second partial beam and signal subtraction means for extracting a signal derived from the third sensing means from each of the first and second sensing means.
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8. A method of sensing change in refractive index comprising providing first and second partial beams of electromagnetic radiation having equal amplitudes in two orthogonal directions of polarisation, causing the first partial beam to traverse a transparent medium along an optical path of known length reflecting said partial beam so that it traverses said path through said medium in the reverse direction, causing the second partial beam to traverse a path of equal length but not passing through said medium, introducing a phase difference of 90 degrees between radiation in two orthogonal directions of polarisation in one of the partial beams, combining components of equal intensity derived from the first and second partial beams to provide first and second output signals deriving a third output signal corresponding to the intensity of the second partial beam only, subtracting the third output signal from each of the first and second output signals and causing a change in the optical path length of the first partial beam through said medium.
Specification