Single Channel Detectors

Scientific Detectors, Single Point Detectors

Large choice of PMTs, solid state, photoelectric detectors for custom spectroscopy solutions

HORIBA offers a comprehensive array of single point detectors for a wide variety of applications in spectroscopy and biomedical research. These are complete detectors including housings, power supplies and facility for cooling if necessary. Available on a stand-alone basis, or in conjunction with our monochromators and spectrographs these detectors allow you to configure a custom solution for your unique requirements. Many of our spectrographs have dual exit ports allowing you to have both a point detector for ultimate resolution and a multi-channel imaging spectrograph for high speed spectral acquisitions. HORIBA offers more choices and better specifications to ensure you can select the best components for your needs.

Segment: Scientific
Manufacturing Company: HORIBA Scientific

Photomultiplier Detectors

Photomultiplier Detectors

Detector Material

Wavelength Range (nm)

Active Area, mm

Dark Current  (nA)

Cooling

Chopper & Lock-In or Modulated Source

PMT-928SC

Multialkali Photocathode

185 to 900

8 x 24

3

RT or TE

Not Required

955

Multialkali Photocathode

160 to 900

8 x 24

3

RT or TE

Not Required

1527

Bialkali Photocathode

185 to 650

8 x 24

0.1

RT or TE

Not Required

2658

InGaAs Photocathode

185 to 1010

3 x 12

1

TE

Not Required

1 Dual detectors consist of a silicon detector on top of a NIR detector, where the Silicon transmits wavelengths above 1 μm 
RT = Room Temperature 
TE = Thermoelectric cooling 
LN2 = Liquid nitrogen cooling

Solid State Detectors

Solid State Detectors 

Detector Material

Wavelength Range (μm)

Active Area, mm

Sensitivity   (D*)

Cooling

Chopper & Lock-In or Modulated Source

DSS-S025A

Silicon (Si)

0.20 to 1.10

2.5 mm Ǿ

1.48E+14

RT

Not Required

DSS-S025T

Silicon (Si)

0.20 to 1.00

2.5 mm Ǿ

2.22E+14

TE

Not Required

DSS-IGA020A

Indium gallium arsenide (InGaAs)

0.80 to 1.70

2 mm Ǿ

3.54E+13

RT

Not Required

DSS-IGA020T

Indium gallium arsenide (InGaAs)

0.80 to 1.65

2 mm Ǿ

1.18E+14

TE

Not Required

DSS-IGA020L

Indium gallium arsenide (InGaAs)

0.80 to 1.55

2 mm Ǿ

1.77E+15

LN2

Not Required

DSS-IGA(1-9)010T

InGaAs Extended

1.00 to 2.05

1 mm Ǿ

8.86E+12

TE

Recommended

DSS-IGA(1-9)010L

InGaAs Extended

1.00 to 1.90

1 mm Ǿ

4.43E+13

LN2

Recommended

DSS-IGA(2-2)010T

InGaAs Extended

1.20 to 2.40

1 mm Ǿ

1.77E+12

TE

Recommended

DSS-IGA(2-2)010L

InGaAs Extended

1.30 to 2.20

1 mm Ǿ

8.86E+12

LN2

Recommended

DSS-G020A

Germanium (Ge)

0.80 to 1.80

2 mm Ǿ

3.94E+12

RT

Not Required

DSS-G020T

Germanium (Ge)

0.80 to 1.60

2 mm Ǿ

3.54E+13

TE

Not Required

DSS-G020L

Germanium (Ge)

0.80 to 1.50

2 mm Ǿ

7.09E+14

LN2

Not Required

DSS-PS020A

Lead sulfide (PbS)

1.00 to 2.80

2 x 2

1.00E+12

RT

Required

DSS-PS020T

Lead sulfide (PbS)

1.00 to 2.80

2 x 2

6.67E+12

TE

Required

DSS-PSE020A

Lead selenide (PbSe)

1.00 to 4.50

2 x 2

2.00E+10

RT

Required

DSS-PSE020T

Lead selenide (PbSe)

1.00 to 4.50

2 x 2

1.00E+11

TE

Required

MCT(5)020T

Mercury cadmium telluride (HgCdTe)

1.00 to 5.00

2 x 2

1.00E+11

TE

Required

DSS-IS020L

Indium antimonide (InSb)

1.00 to 5.40

2 mm Ǿ 

1.20E+11

LN2

Recommended

DSS-MCT(14)-LN

Mercury cadmium telluride (HgCdTe)

2.00 to 14.00

2 x 2

4.00E+11

LN2

Required

DSS-MCT(20)-LN

Mercury cadmium telluride (HgCdTe)

2.00 to 20.0

2 x 2

6.67E+10

LN2

Required

1 Dual detectors consist of a silicon detector on top of a NIR detector, where the Silicon transmits wavelengths above 1 μm 
RT = Room Temperature 
TE = Thermoelectric cooling 
LN2 = Liquid nitrogen cooling

Pyroelectric Detector

Pyroelectric Detector  

Detector Material

Wavelength Range (μm)

Active Area, mm

Sensitivity   (D*)

Cooling

Chopper & Lock-In or Modulated Source

DSS-LT020A

Lithium tantalate (LiTaO3)

2.00 to 16.00

2 mm Ǿ

1.77E+09

RT

Required

1 Dual detectors consist of a silicon detector on top of a NIR detector, where the Silicon transmits wavelengths above 1 μm 
RT = Room Temperature 
TE = Thermoelectric cooling 
LN2 = Liquid nitrogen cooling

Solid State Dual Detectors1

Solid State Dual Detectors1

Detector Material

Wavelength Range (μm)

Active Area, mm

Sensitivity   (D*) Si / IR Material

Cooling

Chopper & Lock-In or Modulated Source

DSS-SG020A

Si over Ge

0.20 to 1.80

2 mm Ǿ

1.48E+14/2.36E+12

RT

Recommended

DSS-SG020T

Si over Ge

0.20 to 1.60

2 mm Ǿ

2.22E+14/2.13E+13

TE

Recommended

DSS-SIGA020A

Si over InGaAs

0.20 to 1.70

2 mm Ǿ

1.48E+14/2.13E+13

RT

Recommended

DSS-SIGA020T

Si over InGaAs

0.20 to 1.65

2 mm Ǿ

2.22E+14/7.09E+13

TE

Recommended

DSS-SIA020A

Si over InAs

0.20 to 3.50

2 mm Ǿ

1.48E+14/5.32E+9

RT

Recommended

DSS-SIA020T

Si over InAs

0.20 to 3.40

2 mm Ǿ

2.22E+14/1.06E+11

TE

Required

DSS-SPS020A

Si over PbS

0.20 to 2.80

2 mm Ǿ

1.48E+14/6.00E+11

RT

Required

DSS-SPS020T

Si over PbS

0.20 to 2.80

2 mm Ǿ

2.22E+14/4.00E+12

TE

Required

DSS-SPSE020A

Si over PbSe

0.20 to 4.50

2 mm Ǿ

1.48E+14/1.20E+10

RT

Required

DSS-SPSE020T

Si over PbSe

0.20 to 4.50

2 mm Ǿ

2.22E+14/6.00E+10

TE

Required

Dual detectors consist of a silicon detector on top of a NIR detector, where the Silicon transmits wavelengths above 1 μm 
RT = Room Temperature 
TE = Thermoelectric cooling 
LN2 = Liquid nitrogen cooling

PMT Housings

A variety of ambient and cooled PMT housings are available for both stand-alone use and for efficient optical coupling with HORIBA spectrometers.

Housing

Application

Integrated
High Voltage

Cooling

1424M(S)

Spectrometer coupling

No

Ambient

DPM-HVH(G)

Spectrometer coupling

Yes

Ambient

OB-3004

Stand-alone

Yes

Ambient

1912F(G)-H

Spectrometer coupling

No

TE water cooling ΔT >40°C

OB-3001

Spectrometer coupling

No

TE air cooling -20°C

 

 

DSS Detector Couplers

Various optical couplers are available for collection of signal from HORIBA spectrometers to DSS solid state detectors. Dual detector housings enable mounting of up to 4 detectors on a single HORIBA spectrometer with two exit ports!

Coupler

Detector Compatibility

Chopper or Filter Wheel

1427C(-AU)

Single DSS Detector (ambient, TE, LN2)

N/A

J23075610

Single DSS Detector (ambient, TE, LN2)

Chopper

J23075620

Single DSS Detector (ambient, TE, LN2)

Filter Wheel

J23075630

Single DSS Detector (ambient, TE, LN2)

Chopper / Filter Wheel

J23078370

Two DSS Detectors (ambient, TE, LN2)

N/A

J23079050

PMT or DSS Detector (ambient, TE) and DSS Detector (ambient, TE, LN2)

N/A

Detectors from 200 nm to 20 µm

Single Point Detectors Spectral Response

Characterization of Semiconductors with Photoluminescence Measurement System
Characterization of Semiconductors with Photoluminescence Measurement System
Photoluminescence is the optical emission obtained by photon excitation (usually a laser) and is commonly observed with III-V semiconductor materials. This type of analysis allows non-destructive characterization of semiconductors (material composition, qualitative investigations, etc.

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