Light scattering detector
First Claim
1. A light scattering detector device, comprising:
- a detection cell to accept particles suspended in a gas stream and permit a polarized beam to pass through a trajectory of the particles and gas stream;
a sample light detector disposed to detect light scattered in the detection cell;
a light trap that accepts the polarized beam after it passes through the detection cell, the light trap including,an elongated housing through which the polarized beam passes, and light absorptive material within the elongated housing; and
an absorptive filter disposed to substantially align the electric field vector of the polarized beam with the plane of incidence defined by the polarized beam and the normal to said absorptive filter, and disposed to intersect the polarized beam at an angle of incidence that approximates Brewster'"'"'s angle;
a reference light detector to detect light passing through said absorptive filter; and
a noise cancellation circuit to sum a reference signal corresponding to light received by said reference light detector and a sample signal corresponding to light received by said sample light detector, the noise cancellation circuit further comprising one or more potentiometers that may be adjusted to balance said reference signal and said sample signal.
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Accused Products
Abstract
The invention concerns high sensitivity light scattering detection and its application to evaporative light scattering detection in liquid chromatography. The exemplary embodiment includes a detection cell to accept particles suspended in a gas stream and permit a polarized light beam to pass through a trajectory of the particles and gas stream. A sample light detector is disposed to detect light scattered in the detection cell. A light trap accepts the polarized beam after it passes through the detection cell. The light trap includes an elongated housing through which the polarized beam passes, and light absorptive material within the elongated housing. An absorptive filter is aligned such that the angle of incidence of the light beam upon the filter approximates Brewster'"'"'s angle and the electric field vector of the beam is aligned with the plane of incidence between the beam and the filter. Other embodiments of the invention provide increased light collection. Embodiments of the invention include temperature-controlled entrance and exit ports that control particle trajectory. Embodiments of the invention include a reference cell disposed between a detection cell and a light trap, and the reference cell includes lensing and a spherical mirror to direct light toward a reference light detector. The reference light detector provides a reference signal that may be used with noise cancellation circuitry, operating in either voltage or current mode, to reduce light source noise in the sample signal.
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Citations
33 Claims
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1. A light scattering detector device, comprising:
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a detection cell to accept particles suspended in a gas stream and permit a polarized beam to pass through a trajectory of the particles and gas stream; a sample light detector disposed to detect light scattered in the detection cell; a light trap that accepts the polarized beam after it passes through the detection cell, the light trap including, an elongated housing through which the polarized beam passes, and light absorptive material within the elongated housing; and an absorptive filter disposed to substantially align the electric field vector of the polarized beam with the plane of incidence defined by the polarized beam and the normal to said absorptive filter, and disposed to intersect the polarized beam at an angle of incidence that approximates Brewster'"'"'s angle; a reference light detector to detect light passing through said absorptive filter; and a noise cancellation circuit to sum a reference signal corresponding to light received by said reference light detector and a sample signal corresponding to light received by said sample light detector, the noise cancellation circuit further comprising one or more potentiometers that may be adjusted to balance said reference signal and said sample signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22)
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23. A light scattering detector device, comprising:
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a detection cell to accept particles suspended in a gas stream and permit a light beam to pass through a trajectory of the particles and gas stream; a sample light detector disposed to detect light scattered in the detection cell; a light trap that accepts the light beam after it passes through the detection cell; a sample compound lens collector to direct light scattered in the detection cell upon the sample light detector; a spherical mirror to direct light scattered in the detection cell to the compound lens collector; a reference cell through which the light beam passes before the light beam is accepted by said light trap; a reference light detector; a reference cell compound lens collector to direct light scattered in the reference cell upon the reference light detector; and a spherical mirror to direct light scattered in the reference cell to the reference cell compound lens collector. - View Dependent Claims (24, 25, 26, 27, 28, 29, 30, 31)
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32. A light scattering detector device, comprising:
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a detection cell to accept particles suspended in a gas stream and permit a light beam to pass through a trajectory of the particles and gas stream; a sample light detector disposed to detect light scattered in the detection cell;
a light trap that accepts the light beam after it passes through the detection cell;a reference cell through which the polarized beam passes before the polarized beam is accepted by said light trap; a reference light detector; a reference cell compound lens collector to direct light scattered in the reference cell upon the reference light detector; a spherical mirror to direct light scattered in the reference cell to the reference cell compound lens collector; a heated inlet port that extends into said detection cell to control the trajectory of the particles and gas stream; and a heated exit port that extends into said detection cell to control the trajectory of the particles and gas stream; wherein said heated inlet port and said heated exit port are thermally conductive and said detection cell is thermally nonconductive.
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33. A light scattering detector device, comprising:
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a detection cell to accept particles suspended in a gas stream and permit a light beam to pass through a trajectory of the particles and gas stream; a sample light detector disposed to detect light scattered in the detection cell; a light trap that accepts the light beam after it passes through the detection cell; a reference cell through which the polarized beam passes before the polarized beam is accepted by said light trap; a reference light detector; a reference cell compound lens collector to direct light scattered in the reference cell upon the reference light detector; a spherical mirror to direct light scattered in the reference cell to the reference cell compound lens collector; a heated inlet port that extends into said detection cell to control the trajectory of the particles and gas stream; and a heated exit port that extends into said detection cell to control the trajectory of the particles and gas stream; wherein said heated inlet port and said heated exit port are thermally isolated from said detection cell.
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Specification