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Off-Axis Parabolic Mirrors Selection Guide
Wavelength Range	Reflectivity (Avg.)	Coating
250 nm - 450 nm	>90%	UV-Enhanced Aluminum
400 nm - 20 µm	>95%	Protected Silver
450 nm - 20 µm	>90%, 450 nm - 2 µm >95%, 2 - 20 µm	Protected Aluminum
800 nm - 10 µm	>95%	Protected Gold
Off-Axis Parabolic Mirrors with Holes

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Mounting Adapter Installation

Features

>95% Average Reflectivity Over a Broadband Range from 800 nm to 10 µm
Collimates a Point Source or Focuses a Collimated Beam without Spherical or Chromatic Aberrations
Effective Focal Lengths: 1", 2", 4", 6", or 9" (25.4 mm, 50.8 mm, 101.6 mm, 152.4 mm, or 228.6 mm)
Surface Roughness: <100 Å (RMS)
Clear Aperture: >90% of Diameter
Two Kinds of Mounting Adapters for Ø1/2", Ø1", and Ø2" Versions:

Post Mounting Adapters with 8-32 (M4) Taps
Rounded Adapters for Stable Three-Point Contact in Mirror Mounts

Thorlabs' off-axis parabolic (OAP) mirrors are first-surface mirrors whose reflective surfaces are equivalent to segments of a parent parabolic mirror. They achromatically focus a collimated beam or collimate a broadband point source, and their off-axis design spatially separates the focal point from the rest of the beam path. The all-reflective design eliminates phase delays and absorption losses introduced by transmissive optics.

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The angle between the focused beam and the collimated beam, which is called the "off-axis angle", is 90°. As shown to the left, the propagation axis of the collimated beam should be normal to the bottom of the substrate to achieve a proper focus. The OAPs sold here are fabricated using aluminum substrates, and the diamond-turned parabolic surface has a protected gold coating that provides >95% average reflectivity from 800 nm - 10 µm. The non-optical surfaces are black anodized and laser-engraved with the item number for easy identification.

Thorlabs also offers off-axis parabolic mirrors with holes for applications that require two beams to be overlapped.

Mounting Adapters
The bottom of each off-axis parabolic mirror contains three tapped mounting holes in a triangle pattern and an alignment hole. Together with our Mounting Adapters for Ø1/2", Ø1", and Ø2" OAPs, which contain three corresponding counterbores and an alignment pin, these features allow our OAPs to be repeatably and securely mounted. The tapped holes are also useful in OEM applications.

We offer two types of mounting plates, both of which provide three-point mechanical stability. The first type is designed to be mounted in any Ø1", Ø2", or Ø3" mirror mount, depending upon the diameter of the OAP. The second type, designed for post mounting, contains an 8-32 (M4) tapped hole on all four sides for direct mechanical compatibility with Ø1/2" Posts.

Our Ø1/2" and Ø1" OAPs can also be adapted to our SM-threaded rotation mounts by placing them into our SM Thread to Double Bore Adapters.

Common Specifications
Reflectivity (Average)	>95% from 800 nm to 10 µm
Off-Axis Angle	90°
Clear Aperture	>90% of Diameter^a
Surface Roughness	<100 Å (RMS)
Reflected Wavefront Error	λ/4 at 633 nm
Surface Quality	40-20 Scratch-Dig
Parent Focal Length Tolerance	±1%
Reflected Focal Length Tolerance	±1%
Bottom Mounting Holes	Ø1/2" and Ø1": 4-40 Taps in Radial Pattern (3 Places) Ø2" and Ø3": 8-32 Taps in Radial Pattern (3 Places)
Substrate	Aluminum
Manufacturing Process	Diamond Turned

The diameter is defined in the drawing to the right.

Item Prefix	Diameter	Thickness	Reflected Focal Length	Parent Focal Length
MPD127127	1/2" (12.7 mm)	0.74" (18.8 mm)	1" (25.4 mm)	1/2" (12.7 mm)
MPD127254	1/2" (12.7 mm)	0.74" (18.8 mm)	2" (50.8 mm)	1" (25.4 mm)
MPD254254	1" (25.4 mm)	1.25" (31.7 mm)	2" (50.8 mm)	1" (25.4 mm)
MPD254508	1" (25.4 mm)	1.25" (31.8 mm)	4" (101.6 mm)	2" (50.8 mm)
MPD254762	1" (25.4 mm)	1.25" (31.7 mm)	6" (152.4 mm)	3" (76.2 mm)
MPD508508	2" (50.8 mm)	2.47" (62.8 mm)	4" (101.6 mm)	2" (50.8 mm)
MPD508762	2" (50.8 mm)	2.47" (62.8 mm)	6" (152.4 mm)	3" (76.2 mm)
MPD762762	3" (76.2 mm)	3.47" (88.2 mm)	6" (152.4 mm)	3" (76.2 mm)
MPD7621143	3" (76.2 mm)	3.47" (88.2 mm)	9" (228.6 mm)	4.5" (114.3 mm)

The drawing to the right defines the quantities in this table.

All data shown below is for unpolarized light, unless otherwise stated. The shaded regions in the graphs denote the ranges over which we recommend using these mirrors.

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Excel Spreadsheet with Raw Data for Protected Gold, 45° AOI

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Excel Spreadsheet with Polarization-Dependent Raw Data for Protected Gold, 45° AOI

Selecting a Mirror Based on Desired Output Beam Diameter

When using an off-axis parabolic mirror to collimate a point source, selection of the appropriate mirror is often done based on the desired output beam diameter. Beam diameter can be calculated very easily using the divergence half-angle of the incident light (Θ) and the reflected focal length of the OAP. To calculate the beam diameter in the small angle approximation, use the following equation:

Beam Diameter = 2 x sin(Θ) x Reflected Focal Length

If you are collimating from a fiber, the equation can be rewritten as:

Beam Diameter = 2 x NA (Fiber) x Reflected Focal Length

The table below lists the output beam diameter as a function of the reflected focal length of the mirror and the divergence half-angle of the incident light. Not listed here is the diameter of the OAP. The clear aperture of the OAP you select should be larger than the desired beam output diameter.

Reflected Focal Length	Beam Diameter
	2.5° Source Divergence	5° Source Divergence	7.5° Source Divergence	10° Source Divergence
1" (25.4 mm)	2.2 mm	4.4 mm	6.6 mm	8.8 mm
2" (50.8 mm)	4.4 mm	8.9 mm	13.3 mm	17.6 mm
4" (101.6 mm)	8.9 mm	17.7 mm	26.5 mm	35.3 mm
6" (152.4 mm)	13.3 mm	26.6 mm	39.8 mm	52.9 mm
9" (228.6 mm)	19.9 mm	39.8 mm	59.7 mm	79.4 mm

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Posted Comments:

Poster: oliva

Posted Date: 2013-02-12 09:00:52.63

For astronomical applications, we have so far used off-axis parabolae from the long list available from the Edmund's catalog. Main problem/limitation is the coating: Edmund only sells protected-Al and protected-Au; while we need protected-Ag. We are very excited to see that you offer the same type of parabolae silver-coated. Pity that you presently have only a limited choice of angles and focal lengths. I hope you'll soon extend the list. In case, please contact me, I will be happy to give you the list of the 5 types of parabolae that we most urgently need. Although we are small customers (..just need a few items per type...) I nonetheless hope you will consider this possibility to extend your business. Thank you very much for your kind attention Best regards Ernesto Oliva

Poster: tcohen

Posted Date: 2012-07-03 15:37:00.0

Response from Tim at Thorlabs to Charles: The procedure for this would be to lacquer or photoresist the mirrored surface. After the coating dries, apply masking tape to the coated (painted) surface and trim the excess. Drill through the back side with a sharp bit. Remove the tape, deburr by hand, blow off the surface to remove any particles, rinse using a squeeze bottle of acetone to remove the photoresist or lacquer and do not wipe until you are sure that there are no aluminum particles. The final step is to drag wipe the surface by moistening a piece of tissue paper with acetone, laying it on the polished surface and dragging it across the part using only the weight of the wet paper.

Poster: N1107743J

Posted Date: 2012-07-03 03:27:11.0

Hi I was actually interested in odonnela's post about drilling a hole at the focal point. Can you please let me know if there is a possibility to do so and if so what the procedure would be. Thank you in advance, Charles

Poster: tcohen

Posted Date: 2012-05-22 11:28:00.0

Response from Tim at Thorlabs to Bridget: Thank you for contacting us! The housing itself would not be a problem, but the manufacturing difficulties in regards to working with the coating would most likely make this cost-prohibitive for small quantities. If you are open to different ideas, it is possible that your end goal can be achieved using different methods. I will contact you to discuss your application further.

Poster: odonnela

Posted Date: 2012-05-17 16:32:16.0

I had a question about the off-axis parabolic mirrors. We have an application where we would want infrared light to reflect off of the parabolic mirror and have ultraviolet light pass through a hole in the center of the mirror so that the two beams are co-propagating into our vacuum chamber. Would it be possible to have a hole drilled (probably just a few millimeters) through the center of one of the gold parabolic mirrors? I'm not sure what the black mount encompasses or if this would be possible, but I would appreciate some help in the matter. Thank you. Bridget

Poster: tcohen

Posted Date: 2012-04-16 15:04:00.0

Response from Tim at Thorlabs: Thank you for your feedback. The –P2 adapters have larger outer diameters that will not fit in a standard mirror mount. These are equipped with 8-32 (M4) tapped holes for post mounting. If you are interested in compatibility with our standard mirror mounts, please consider looking at the –P1 adapters which serve this purpose.

Poster: piksarv

Posted Date: 2012-04-13 21:06:44.0

Concerning the mounting adapters, it remains unclear to me, if it is possible to use also the P2 ending adapters for mounting the mirros to standard kinematic mirror mounts?

Poster: tcohen

Posted Date: 2012-02-23 10:11:00.0

Response from Tim at Thorlabs: Thank you for your interest in our silver coated off-axis parabolic mirrors. We are happy to announce that we do have new versions planned. Specifically, the product you mentioned is an active project in the design and testing phase.

Poster: michael.smith

Posted Date: 2012-02-23 09:40:37.0

I was happy to see you have now added silver coating to your off-axis parabolic mirror options. Is there any chance that the RFL = 50.8 mm mirror will be offered in a 2 inch format?

Poster: bdada

Posted Date: 2012-02-08 20:21:00.0

Response from Buki at Thorlabs to the last poster: Thank you for your interest in off axis parabolic mirrors. We will add your request to our product development forum and consider it as we continue to expand our selection of parabolic mirrors. Please contact TechSupport@thorlabs.com if you have any questions.

Poster:

Posted Date: 2012-01-31 01:22:54.0

Hi, will you be offering 76.2mm OAP in the future? thanks

Poster: npalka

Posted Date: 2011-06-13 22:06:47.0

Dear Thorlabs, Can I use your off-axis mirrors and mirrors PF10-03-M01 in THz range (0.1-3THz)? Best regards, Norbert Palka

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Off-Axis Parabolic Mirrors, Protected Gold Coating (800 nm - 10 µm)

Features

Selecting a Mirror Based on Desired Output Beam Diameter