Accessories / Parts

This option includes all cables, and USB data acquisition device. The Sci-Spec Windows application software to interface a Sciencetech photon counting PMT detector to a Windows Based PC is required and is sold separately. Such detectors output digital signals through a BNC connector which then gets counted and digitized over USB via a computer interface. A power supply for the detector itself is also required, but is sold with the detector

$ 1,000.00

An F/2 off-axis parabolic mirror assembly with protected gold mirror coating. This assembly is intended to attach to Sciencetech's LH-S lamp houses (also works with obsolete 201C-100 lamp houses). The assembly includes a kinematic three point adjuster to optimize optical alignment. A standard hole pattern on the input and output ends of the assembly can be used to mount this optical component to custom or third party systems with appropriate bracketing.

$ 1,180.00

An F/4 off-axis parabolic mirror assembly with protected gold mirror coating. This assembly is intended to attach to Sciencetech's LH-S lamp houses (also works with obsolete 201C-100 lamp houses). The assembly includes a kinematic three point adjuster to optimize optical alignment. A standard hole pattern on the input and output ends of the assembly can be used to mount this optical component to custom or third party systems with appropriate bracketing.

$ 950.00

An F/2 off-axis parabolic mirror assembly with protected aluminum mirror coating. This assembly is intended to attach to Sciencetech's LH-S lamp houses (also works with obsolete 201C-100 lamp houses). The assembly includes a kinematic three point adjuster to optimize optical alignment. A standard hole pattern on the input and output ends of the assembly can be used to mount this optical component to custom or third party systems with appropriate bracketing.

$ 1,050.00

An F/4 off-axis parabolic mirror assembly with protected aluminum mirror coating. This assembly is intended to attach to Sciencetech's LH-S lamp houses (also works with obsolete 201C-100 lamp houses). The assembly includes a kinematic three point adjuster to optimize optical alignment. A standard hole pattern on the input and output ends of the assembly can be used to mount this optical component to custom or third party systems with appropriate bracketing.

$ 850.00

Sciencetech cold mirrors reflect visible energy and transmit the infrared (heat energy). The cold mirrors are vacuum deposited and all dielectric.
UV cold mirror is specially designed to reflect more than 95% average of ultra-violet rays from 350-450nm and transmit more than 90% average 550-1200nm at 45 degrees angle of incidence. Custom angles of incidence can be designed to specification.

Substrate borofloat 1.4762
Transmits >85% 600-1200nm
Reflects >90% 325-475nm.
Cut to 2.25" x 3.5" +0/-0.1"

$ 1,500.00

Sciencetech's (SCP-MP-T) is a micropositioning probe station with a magnetic base and a tungsten needle-tip probe. It utilizes micrometer heads for accurate repeatable adjustment. 0.5” is the magnitude of fine adjustment for this probe.

Tungsten needle-tip probes are an excellent choice for applications requiring highly accurate, fine probe placement.

$ 1,970.00

Sciencetech's (SCP-4T) is an economical probe station that provides 4 tungsten needle-tip probes to provide contacts to the top surface of your test device.

Tungsten needle-tip probes are an excellent choice for applications requiring highly accurate, fine probe placement.

$ 960.00

Sciencetech's (SCP-2T) is an economical probe station that provides 2 tungsten needle-tip probes to provide contacts to the top surface of your test device.

Tungsten needle-tip probes are an excellent choice for applications requiring highly accurate, fine probe placement.
Please note: Tungsten needle-tip probes are very sharp and might not be suitable for some cell technologies. For such application, Gold spring loaded probes such as SCP-2G is recommended.

$ 585.00

Sciencetech's (SCP-2G) is an economical probe station that provides 2 gold plated spring-tip probes to provide contacts to the top surface of your test device.

Gold spring probes are an excellent choice for most applications, with the probe tip gently contacting the surface of your test device. For applications requiring finer probe placement, please see our tungsten needle-tip probe stations.

$ 545.00

The SCI-SCC12-L cell chuck is an economical way of providing temperature control and electrical connection to your test cells. It has a conductive tin-plated copper base plate (gold plating available) and is compatible with all of Sciencetech's probe systems. The cell chuck is capable of vacuum hold-down (vacuum pump sold separately) and requires an external system to provide liquid cooling or heating that can heat or cool your test cells between 1 and 80 ºC.

This model requires a water recirculator (for cooling only) or temperature control unit for temperature control (both sold separately).

Working Area: 12" x 12"
Temperature Range: 1 – 80 ºC
Power Input: 115-240VAC
Power Usage: 2W
Options: Vacuum Pump and Water Recirculator or Temperature Control Unit

$ 4,900.00

The SCI-SCC12 cell chuck is an economical way of providing electrical connection to your test cells. It has a conductive tin-plated copper base plate (gold plating available) and is compatible with all of Sciencetech's probe systems. The cell chuck is capable of vacuum hold down (vacuum pump sold separately).

Working Area: 30 x 30 cm (12" x 12")
Temperature Range: N/A
Power Input: N/A
Power Usage: N/A
Options: Vacuum Pump

$ 3,200.00

The SCI-SCC6-TE cell chuck is an economical way of providing temperature control and electrical connection to your test cells. It has a conductive tin-plated copper base plate (gold plating available) and is compatible with all of Sciencetech's probe systems. The cell chuck is capable of vacuum hold-down (vacuum pump sold separately) and has thermoelectric cooling elements that can heat or cool your test cells from dew point to 60 ºC.

Cooling area: 6" x 6"
Temperature Range: 10 - 60 ºC
Power Input: 115-240VAC
Power Usage: 300W
Options: Vacuum Pump

$ 5,600.00

The SCI-SCC6-L cell chuck is an economical way of providing temperature control and electrical connection to your test cells. It has a conductive tin-plated copper base plate (gold plating available) and is compatible with all of Sciencetech's probe systems. The cell chuck is capable of vacuum hold-down (vacuum pump sold separately) and requires an external system to provide liquid cooling or heating that can heat or cool your test cells from dew point to 80 ºC.

This model requires a water recirculator (for cooling only) or temperature control unit for temperature control (both sold separately).

Cooling area: 6" x 6"
Temperature Range: 1 - 80 ºC
Power Input: 115-240VAC
Power Usage: 2W (not including recirculator or temp control unit)
Options: Vacuum Pump and Water Recirculator or Temperature Control Unit

$ 1,400.00

The SCI-SCC6 cell chuck is an economical way of providing electrical connection to your test cells. It has a conductive tin-plated copper base plate (gold plating available) and is compatible with all of Sciencetech's probe systems. The cell chuck is capable of vacuum hold down (vacuum pump sold separately).

Working Area: 6" x 6"
Temperature Range: N/A
Power Input: N/A
Power Usage: N/A
Options: Vacuum Pump

$ 840.00

The SCI-SCC3-TE cell chuck is an economical way of providing temperature control and electrical connection to your test cells. It has a conductive tin-plated copper base plate (gold plating available) and is compatible with all of Sciencetech's probe systems. The cell chuck is capable of vacuum hold-down (vacuum pump sold separately) and has an integrated thermoelectric controller that can heat or cool your test cells from dew point to 60 ºC.

This product is not compatible with PTS systems. For PTS systems add the SCI-SCC3-TE-PTS version of this cell chuck

Cooling area: 3.5" x 3.5"
Temperature Range: 10 - 60 ºC
Power Input: 115-240VAC
Power Usage: 80W
Options: Vacuum Pump

$ 1,566.00

The SCI-SCC3 cell chuck is an economical way of providing electrical connection to your test cells. It has a conductive tin-plated copper base plate (gold plating available) and is compatible with all of Sciencetech's probe systems. The cell chuck is capable of vacuum hold down (vacuum pump sold separately).

Working Area: 3.5" x 3.5"
Temperature Range: N/A
Power Input: N/A
Power Usage: N/A
Options: Vacuum Pump

$ 565.00

Sciencetech's proprietary wideband detector design comes packaged in our standard "hockey puck" enclosure (2" diameter x 1" high) and is connectorized to be powered directly from the Stanford SR-810/830 type lock-in amplifiers,
The spectral range is limited by high density polyethylene window.
The detector WILL saturate on the visible light from the lamp. After alignment, cover the entire input opening of the detector head with thin black polyethylene to prevent undesired visible light from overloading the detector.
This detector is suitable for direct connection to Stanford SR-830 lockin preamp power. When using the Stanford lock-in, the signal overload indicator will light just before the detector saturates.The SCIDTGS-PE detector is suitable for testing FTIR alignment and material transmission measurements without special cooling.
Upon installation, the optical system MUST be re-aligned to image the iris of the light source onto the detector element. This may require rotating the entire detector head to an optimum position and/or adjusting mirrors and re-focusing.
Element size 2.0 mm dia.
Spectral bandwidth Limited by High Density Polyethylene window
Sensitivity 133,000 volts per watt HDPE Window
Frequency response 8.8Hz - 265Hz (-3db points)
N.E.P. 1x10-10 watts (100Hz, 1Hz BW)

Power requirements: +/- 15 to +/- 24 volts max @ +/- 8 mA max.
Power connections: DB-9M Pins 2,3,4,5,9 no connection
+V In Pin 1
-V In Pin 6
Common Pin 7
Case GND Pin 8
Suitable for direct connection to Stanford SR-830 lockin preamp power (not included).

$ 6,200.00

Sciencetech's proprietary wideband detector design comes packaged in our standard "hockey puck" enclosure (2" diameter x 1" high) and is connectorized to be powered directly from the Stanford SR-810/830 type lock-in amplifiers and optimized to utilize the full input range of these
lock-ins for FTIR applications.
Features of our SCI425CMB0:
This detector is not hygroscopic and may be operated indefinitely under normal atmospheric conditions and at temperatures beyond 100oC. A selection of windows is available to limit spectral response.

$ 3,200.00

Sciencetech's proprietary wideband detector design comes packaged in our standard "hockey puck" enclosure (2" diameter x 1" high) and is connectorized to be powered directly from the Stanford SR-810/830 type lock-in amplifiers and optimized to utilize the full input range of these lock-ins as a reference detector for Spectral Response, Quantum Efficiency, Constant Photocurrent Measurement in Photovoltaic Testing Systems.
Features of our SCI425CMA:
This detector is not hygroscopic and may be operated indefinitely under normal atmospheric conditions and at temperatures beyond 100oC. A selection of windows is available to limit spectral response.
Calibration is supplied with the detector.
Element size: 5 mm dia.
Spectral response: (no window, blackened): 180nm – 2.5 microns (Quartz Window)

$ 2,400.00