Optomechanical

This Fiber Bundle Coupler mates a Sciencetech Beam Condensing Assembly or Light Source Optical Coupling Unit to the input end of a fiber bundle such that the light collected is focused into the fiber bundle with great efficiency. The Fiber Bundle Coupler screws onto the output end of the Beam Condensing Assembly or Light Source Coupling Unit. Once screwed on, the input tip of the fiber bundle would be positioned at the output focal spot for optimum light collection.

$ 430.00

This Fiber Bundle Coupler mates a Sciencetech Beam Condensing Assembly or Light Source Optical Coupling Unit to the input end of a fiber bundle such that the light collected is focused into the fiber bundle with great efficiency. The Fiber Bundle Coupler screws onto the output end of the Beam Condensing Assembly or Light Source Coupling Unit. Once screwed on, the input tip of the fiber bundle would be positioned at the output focal spot for optimum light collection.

$ 430.00

This SMA Fiber Coupler mates a Sciencetech 2" Beam Condensing Assembly (such as IO2 model condensors) to the input end of an SMA fiber such that the light collected is focused into the SMA fiber tip with great efficiency. The SMA Fiber Coupler screws onto the output end of the 2" Beam Condensing Assembly. Once screwed on, the input tip of the fiber bundle is positioned at the output focal spot for optimum light collection. This assembly also includes an X-Y optical coupler that can be used to couple beam line components and allows for independent adjustment of +-3mm along each of two orthogonal axis. There are two flange sizes of the Fiber Bundle Coupler available to match the 1 and 2 inch diameter sizes of the Beam Condensing Assembly. Please note that the SMA Fiber Coupler should not be used on its own without the beam condensing assembly as otherwise the light collection efficiency from the light source is very low.

$ 437.00

The SH-2-B-OF is a computer controlled shutter for 201, LH-S, XLH-S lamp houses and SF solar simulators. Based on the successful SSES lines of blade shutters for Sciencetech's line of high powered solar simulators.
An arc lamp is not designed to be frequently turned off and on and doing so will dramatically lower its service life. In addition, each time it is turned on it requires the power supply to ignite it with a 20,000V+ spark. THe best option for performing exposure testing is to integrate an electronic shutter system inside the beam homogenizer. The electronic shutter is computer controlled with an activation time of <150ms. Software for the shutter controller is included with this item. The standard shutter controller connects to a computer via RS232. RS232-USB converters are available and work with this product. In addition to computer control the shutter can be controlled via a toggle switch on the shutter controller box.

This shutter can be used with any high powered light source and can effectively block a 2" diameter beam. See the brochure information for a mounting pattern.
This shutter is open frame and the shutter mechanism is exposed. For an enclosed shutter please see the SH-XLH-B product.

This device can be controlled through Sciencetech's touch screen power supplies (including automated exposure time control).
Please note leaving the shutter closed for extremely long periods of time while the arc lamp is on may cause damage to the motorized components.

$ 500.00

This mount will attach cryogenic detectors directly to a Sciencetech monochromator or spectrometer. Please note that this mount is designed specifically for cryogenically cooled detectors, and may not function for other types of detectors. If you are uncertain about whether you need this mount or not, please contact your Sciencetech Representative.

$ 525.00

Used to allow the SS150 to direct the beam downwards, upwards, or at 90 degrees to the usual output direction (horizontal). Not included in the Vertical Stand, due to the usual arrangement of allowing the beam to aim downwards (meaning in most cases this component is not required with the vertical stand option).

$ 570.00

This coupling tube connects the Model 200-1K arc lamp housing to the Model FH-AC air-cooled dual filter holder box. Its length is designed specifically to place the air-cooled filter holder with 2" diameter filters in the converging beam of the light source. A mating flange connects this input extension coupling tube with the Model 200-1K arc lamp housing.

$ 576.00

Many systems require choppers for modulating signals (either inputs or outputs, depending on the system and detector, and the specific needs for modulation for the system). A chopper is normally the most effective way to do this.
However, the chopper normally requires a housing to hold the chopper in the proper position in the system. This particular housing is designed to allow a chopper to be mounted to either the input or output port of a Sciencetech monochromator or spectrograph.
If you have any questions about how this mounting may affect your system, please speak with your authorized Sciencetech technical sales staff member.

$ 600.00

The C230X Chopper is a Sciencetech manufactured chopper for high precision applications requiring a vacuum-grade polarizing chopper and better accuracy than is available through most commercially available chopper systems.
This product is the enclosure required to mount one of these choppers to any system. Please discuss the exact desired location of the chopper relative to the rest of your system with your authorized Sciencetech technical sales staff member to ensure that your system meets all technical specifications and requirements.

$ 650.00

The SS80 is a manual controlled bilaterally adjustable slit for the input or output port. Most Sciencetech monochromators/spectrograph models already include one SS80 slit at the input port but an additional one at the output port is usually required if the monochromator is mated to a single channel detector, PMT detector, or used as a tunable wavelength light source. If the dual port option is selected for a Sciencetech monochromator, an additional SS80 slit for the second port may also be required. The slit width can be adjusted between 0-6mm, in 10µm spacing using a micrometer thumbwheel. The height of the SS80 slit can also be adjusted between 0-10mm, 10-20mm and 20-30mm through built-in manual curtain sliders.

$ 761.00

45 degree mirror to deflect the light 90 degrees, such that it points downwards for a horizontal target.
The UV cold mirror transmits IR (thermal) and some visible light on the sample (Transmission > 85% for the region 600 - 1200nm, Reflection >90% for the region 325 - 475nm)

$ 788.00

45 degree mirror to deflect the light 90 degrees, such that it points downwards for a horizontal target.
The cold mirror eliminates IR (thermal) light on the sample (Transmission > 85% for the region 800 - 1200nm, Reflection >90% for the region 425 - 650nm)

$ 788.00

Open/ close time ~200ms.
Automated with 601 or 611 series power supplies
Designed for use with the SciSun solar simulator

$ 1,000.00

The SH-XLH-B is a computer controlled shutter for 201, LH-S, XLH-S lamp houses and SF/SLB solar simulators. Based on the successful SSES lines of blade shutters for Sciencetech's line of high powered solar simulators.
An arc lamp is not designed to be frequently turned off and on and doing so will dramatically lower its service life. In addition, each time it is turned on it requires the power supply to ignite it with a 20,000V+ spark. The best option for performing exposure testing is to integrate an electronic shutter system with the lamp house or solar simulator. This electronic shutter has an activation time of <150ms.

The SH-XLH-B can be controlled using Sciencetech 601 or 501 series power supplies (including automated explosure time control). Alternatively, a shutter controller model SH-C and SCI-SHUTTER Software are available for controlling the shutter. The SH-C controller is not included with this shutter.

This shutter can be used with any high powered light source and can effectively block a 2" diameter beam.
This shutter is closed frame and the shutter mechanism is not exposed. For an open frame shutter please see the SH-2-B-OF product.

$ 1,000.00

$ 1,000.00

This is a high resolution slit designed to have 2um resolution. The slits are manufactured from stainless steel to maximize mechanical accuracy.

Please note that these slits are not designed to maximize throughput for extremely high resolution monochromators, due to the straight orientation of the slits. For maximum resolution, the slits need to be designed on a curve that corresponds to the curvature of the point of least confusion. However, this is only a significant factor for systems with optical pathlengths of 1m and greater. Please speak with your authorized Sciencetech technical sales staff member if you need maximum resolution for a long pathlength system.

$ 1,030.00

A Beam Turning Assembly can be mounted to the output port of many of Sciencetech's Solar Simulators to redirect the light downwards onto a sample platform. The Beam Turner may also be used to adjust the light path to any 90° angle perpendicular to the horizontal output beam.

$ 1,200.00

This adapter couples light from a standard FC terminated fiber (0.22NA) to an F/3 monochromator input port. The fiber can be adjusted +- 6mm in X and Y directions to optimize the alignment. The optical lenses are made from fused silica giving good transmission over a wavelength range of 200nm-2000nm

$ 1,210.00

This adapter couples light from a standard SMA terminated fiber (0.22NA) to an F/3 monochromator input port. The fiber can be adjusted +- 6mm in X and Y directions to optimize the alignment. The optical lenses are made from fused silica giving good transmission over a wavelength range of 200nm-2000nm

$ 1,210.00

The CTBT-RF is designed to work with Sciencetech's line of SS solar simulators (between 500W and 2.5kW). The CTBT-RF is designed to hold 3" x 4" cold mirrors. A heat sink is mounted behind the dichroic turning mirror to capture transmitted light. The CTBT-RF turns the beam 90 degrees from the standard horizontal output.


Four different cold mirror options exist (purchased separately):
1) 275-375nm
2) 325-450nm
3) 350-550nm
4) 450-725nm
5) UV Enhanced aluminum mirror (250-3000nm)


Please speak with your Sciencetech representative for ordering information.

$ 1,350.00