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Wollaston Prism


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Wollaston Prism

Warning: Calcite is a temperature-sensitive crystal and will crack if it is exposed to thermal shock. Allow the case to reach complete thermal equilibrium before opening (6 - 8 hours).
Item #WP10
MaterialHigh Optical Grade Calcite
Extinction Ratio>100,000:1
Wavelength Range350 nm to 2.3 μm
Beam Deviation20° (nominal)
Clear Aperture 10 mm x 10 mm
Wavefront Error<λ/4
Surface Quality20-10 Scratch-Dig
Damage Threshold1 W/cm2
Schematic Drawing

Features

  • Two Orthogonally Polarized Outputs
  • Large, 20° Angular Deviation
  • Symmetrical Outputs (within 1°)
  • High, 100,000:1 Extinction Ratio
  • 350 nm to 2.3 μm Operation for Uncoated Prisms
  • AR Coated Versions for the 350 -700 nm and
    650 - 1050 nm Ranges
  • Highest Grade Optical Calcite
  • 10 mm x 10 mm Clear Aperture, Ø1” Housing

The Wollaston prism offers the widest deviation angle of beam-displacing polarizers. This prism polarizer is made of two calcite prisms cemented together. Both output beams are deviated symmetrically to within ~1°. Since the output deviations are chromatic (see the plot on the Graphs tab), Wollaston prisms have been used in spectrometers as well as in polarization analyzers. Thorlabs' Wollaston prisms are mounted in a Ø1" anodized, labeled housing.

Our Wollaston prims are supplied uncoated for use over the 350 - 2300 nm range, or with one of two AR coatings for the 350 - 700 nm or 650 - 1050 nm wavelength ranges. Please see the Graphs tab for reflection and transmission plots.

Wollaston prisms are commonly used in rotation mounts. Due to the thickness of the prisms, they typically need to be mounted in an SM1 lens tube (i.e., SM1L10), which can then be threaded onto a rotation mount.

For further information on the properties of calcite, please see the Calcite tab above.
TLK-L780M
Click to Enlarge
An Excel file with Calcite AR coating data is also available.
IO-G-1064
Click to Enlarge
An Excel file with the Wollaston prism field of view data is also available.



Wollaston Field of View
Calcite Splitter
Polarization-Dependent Refraction - Glan Laser Calcite Polarizer

Our calcite polarizers are all based on high-grade, birefringent, calcite crystals. Due to the birefringent structure of calcite, a differential delay is created between two orthogonally polarized waves traveling in the crystal. As shown in the image to the right, this birefringent structure creates a polarization-dependent refraction that effectively steers the polarization planes in two angles. While the ordinary plane will travel straight through the crystal, the extraordinary plane will exit the crystal at an angle proportional to the wavelength as well as the length of the crystal.

A calcite polarizer can be designed as either a polarization splitter/combiner or as a polarizer element that removes the angled, orthogonally polarized component of a beam. Our calcite polarizers are typically built out of two prisms, as shown in the drawing to the right. Since calcite is a soft crystal that is easily damaged, almost all of our calcite polarizers are offered in metal housings. With convenient threadings and adapters, these housings can easily be mounted into our opto-mechanical products.

Field of View

Calcite Polarizer Field of View (FOV)
Thorlabs' Calcite Polarizers
Glan-Laser PolarizersGlan-Taylor PolarizersWollaston Polarizer
Mounted Glan-Thompson Polarizers
Unmounted Glan-Thompson Polarizers		Double Glan-Taylor PolarizerBeam Displacers
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Posted Comments:
Poster: tholste
Posted Date: 2012-07-27 17:09:00.0
A response from Tor at Thorlabs to A.J.H.: Thank you for your inquiry! Unfortunately we do not have transmission data for our Wollaston prisms at this time. The transmission should be very close to that of our Glan-Laser Polarizers, as they are both composed of calcite and use the same coatings. You can find the transmission for these here: http://www.thorlabs.com/NewGroupPage9.cfm?ObjectGroup_ID=917. I hope this helps - please do not hesitate to contact techsupport@thorlabs.com if you have further inquiries.
Poster: a.j.h.meskers
Posted Date: 2012-07-25 08:51:02.0
Dear Sir/Madam, For this product you display a graph showing the reflectance of the AR coating, I would also like to see how the tranmissivity of this crystal vs the wavelength. Do you have data regarding this? Kind regards, Arjan Meskers PhD-researcher Delft University of Technology Faculty: Mechanical, Maritime and Materials Engineering (3mE) Department: Precision and Microsystems Engineering (PME) Section: Mechatronic System Design (MSD), Metrology Mekelweg 2, 2628 CD Delft, The Netherlands Room 5A-2-28 Phone (+31) 15 27 83905 Email A.J.H.Meskers@TUDelft.nl Webpage www.PME.tudelft.nl
Poster: Thorlabs
Posted Date: 2010-11-02 17:12:17.0
Response from Javier at Thorlabs to kjsong: Thank you for your feedback. We will work on specifying temperature specs for this prism. I will contact you directly to discuss your application.
Poster: kjsong
Posted Date: 2010-11-02 11:50:09.0
It would be very helpful if Thorlabs put in the overview that WP10 (I bought two pieces recently) is temperature variation sensitive and easily "cracks". Also it should warn potential users that due to lack of AR coating, the two reflections are quite strong. Since the other calcite polarizers are not sensitive to temperature variation, I wonder whats so special about WP? KJS
Poster:
Posted Date: 2009-03-21 15:26:38.0
the drawing on the tab named drawing is low res and hard to read
Poster: Tyler
Posted Date: 2008-05-12 11:57:39.0
Response from Tyler at Thorlabs to j.d.ellis: The beam deviation angle as a function of wavelength can be found under the "Graphs" tab. Typical index of refraction data was used to make the plot of the deviation angle as a function of wavelength. Since we use natural calcite to make our Wollaston prisms we cannot provide specific index of refraction data. The angle between the entrance face of the Wollaston prism and the splitting surface is 45 degrees +/- 3 arcmin. Thank you for you interest in our product and if you still have questions regarding the suitability of our product for your application please contact our technical support department or leave some additional questions and information about your application in our feedback forum.
Poster: j.d.ellis
Posted Date: 2008-05-07 05:47:08.0
The output beam diameter is quoted as 20 degrees. Should I assume thats at 633 nm? Also, What is the difference between the ordinary refractive index and the extraordinary refractive index (at 633 nm)? "Heighest grade optical calcite" isnt specific enough to determine these values. What is the angle between the entrance face and the splitting surface? These are all things that should be listed under the "specs" section.
Poster: Laurie
Posted Date: 2008-04-09 16:44:41.0
Response from Laurie at Throlabs to surajdsp: Someone from our techsupport staff will be contacting you via email to discuss your application and possible solutions. Thank you for your interest in our products!
Poster: surajdsp
Posted Date: 2008-04-09 07:09:11.0
Dear Sir, we are working on current measurement using faraday effect. We are in need of integrated wollastom prism with fiber connector at each end. We have already a laser source 630nm PM fiber 60 meter. So we want to connect wollastom prism at the output of the fiber. You are kindly requested to send the quotation for the same. Intergated wollastam prism with fiber connectors at each end. Suraj Pardeshi Sr.Engineer ERDA Vadodara INDIA M:099908299184 fax:091-0265-2638382 surajdsp@gmail.com
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WP10 Support Documentation WP10 Wollaston Prism, 20° Beam Separation, Uncoated $572.30
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WP10-A Support Documentation WP10-A Wollaston Prism, 20° Beam Separation, 350 - 700 nm AR Coating $604.80
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WP10-B Support Documentation WP10-B Wollaston Prism, 20° Beam Separation, 650 - 1050 nm AR Coating $604.80
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