PMMA Microlens Arrays


  • Plano-Convex Lens Shape
  • Rectangular Grid Arrangement of Microlenses
  • Uncoated or AR Coated
  • Mounted and Unmounted Versions

Application Idea

Use Microlens Arrays to transform a round collimated beam into a rectangular homogeneous spot.
See the Application tab for details.

MLA1

Unmounted Uncoated PMMA Microlens Array

MLA1M2

Mounted AR Coated PMMA Microlens Array

Related Items


Please Wait
Unmounted Item # MLA1 MLA11 MLA12
Mounted Item # MLA1M MLA1M1 MLA1M2
Substrate Material
(Click for Plot)
PMMA
Effective Focal Length 4.7 mm @ 850 nm
Lenslet Pitch 1.0 mm x 1.4 mm
Single Lens Radius 2.7 mm
AR Coating
(Click for Plot)
- 420 - 700 nm 650 - 1050 nm
Reflectance (Average) - <0.8%, 0° AOI <0.8%, 0° AOI
Array Size and Type
(Length x Height x Thickness)
10.0 mm x 9.8 mm x 1.2 mm
Rectangular Grid
Length and Height Tolerances
(Unmounted Versions Only)
±0.1 mm
Window Aperture
(Mounted Versions Only)
9.0 mm x 9.0 mm
Zemax Files
Click on the red Document icon next to the item numbers below to access the Zemax file download. Our entire Zemax Catalog is also available.
Optic Cleaning Tutorial

Features

  • Polymethyl Methacrylate (PMMA) Substrate
  • 10.0 mm x 9.8 mm High-Quality Microlens Array
  • Available Unmounted or in a Ø1" Mount
  • Offered Uncoated or Broadband AR Coated
    • 420 - 700 nm with an AR Coating
    • 650 - 1050 nm with an AR Coating
  • Rectangular Grid Arrangement of Microlenses
  • Arrays with 1.0 mm x 1.4 mm Lenslet Pitches
  • 2.7 mm Single Lens Radius
  • Ideal for Producing a Square Spot with a Flat Top Profile

These PMMA Microlens Arrays (MLAs) are available mounted or unmounted. MLAs are excellent for homogenizing and shaping light, yielding a flat top profile output or square spot patterns. PMMA has excellent UV resistance, filtering out UV light less than 300 nm. The microlenses have a plano-convex shape and are arranged in a 10.0 mm by 9.8 mm rectangular grid with a lens pitch of 1.0 mm by 1.4 mm. These can be used in fly's eye homogenizer configurations, where a round beam is transformed into a rectangular spot (see the Application tab for details). Alternatively, Thorlabs offers a line of Fly's Eye Homogenizer devices using these MLAs with 40 mm or 95 mm working distances.

For the mounted versions, the MLA is glued into a Ø1", 4.0 mm thick mount that is externally SM1-threaded (1.035"-40). The aperture of the lens window is 9.0 mm by 9.0 mm. The plate has slots that are compatible with a SPW602, SPW606, SPW801, or SPW909 spanner wrench. Their unmounted counterparts are most easily held using one of our cylindrical lens mounts, which are specifically designed to hold square or rectangular optics.

Please note that the Zemax file provided below is not the common sequential (SC) raytracing file which we typically provide, but the non-sequential (NSC) raytracing file. Be aware that the standard version of Zemax OpticStudio® does not support the NSC mode.

AR Coating Options
While our uncoated PMMA microlens arrays offer excellent performance, improved transmission can be gained by choosing a lens with an antireflective coating on both sides to reduce the surface reflections. Our broadband antireflection (BBAR) coatings provide <0.8% average reflectance over one of the following wavelength ranges: 420 - 700 nm or 650 - 1050 nm.

For microlens arrays that are ideal for use in custom-built Shack-Hartmann wavefront sensors, please visit the Fused Silica Microlens Arrays page.

Fly's Eye Homogenizer Setup
Click to Enlarge
This fly's eye homogenizer can be used to transform a round Gaussian collimated beam into a rectangular homogeneous area.
Diagram of Beam splitting with Faraday RotatorClick to Enlarge
A Simplified Diagram of the Setup

Fly's Eye Homogenizer

There are multiple ways to homogenize the output of a light source. Microlens arrays (MLAs) used in a fly's eye homogenizer configuration transform a round collimated beam with a Gaussian profile into a rectangular homogeneous area. The size of the rectangle is defined by the size and pitch of the microlenses.

The application photo to the right shows one possible fly's eye homogenizer configuration mounted in a 30 mm cage system. The light source is a PL201 compact laser module fixed in an AD11F SM1-threaded adapter held in a CP33(/M) cage plate. Alternatively, other light sources can be used such as a fiber-coupled LED connected to a collimator or mounted LED with a collimation adapter. The light passes through the first of two MLAs held in CP6T cage plates. These cage plates are thin enough to hold the mounted MLAs and secure them with a retaining ring while allowing the user to place the MLAs as close as possible to each other to maximize the rectangular output size. The lensed side of the first MLA should face the source. It is key to accurately align the rotation of the MLAs relative to each other; there will be artifacts on screen otherwise. The light then passes through an LB1471 N-BK7 bi-convex lens to produce a rectangular 9 mm x 12 mm area on an EDU-VS2(/M) screen, as seen in the photo to the right. A similar setup can be produced using our Fly's Eye Homogenizer devices as seen here.

Please note that the output rectangle is only sharply defined at a specific distance from the focusing lens. The actual size of the rectangle can be adjusted by changing the distance between the two MLAs. Decreasing the distance will increase the size of the rectangle and increasing the distance will make the rectangle smaller. Smaller rectangle sizes can also be produced by using lenses with shorter focal lengths. A simplified diagram of the setup is shown on the bottom right.

In this example, the setup was mounted using Ø1/2" posts and post holders that were secured to an MB3045(/M) breadboard using clamping forks.

Item #QtyDescription
PL2011Compact Laser Module with USB Connector, 520 nm, 0.9 mW (Typ.)
AD11F1SM1-Threaded Adapter for Ø11 mm, ≥0.35" (8.9 mm) Long Cylindrical Components
CP332SM1-Threaded 30 mm Cage Plate, 0.35" Thick, 2 Retaining Rings, 8-32 Tap
MLA1M2Ø1" Mounted PMMA Microlens Array, Uncoated, EFL = 4.7 mm
CP6T2SM1-Threaded 30 mm Cage Plate, 6.0 mm Thick
LB14711N-BK7 Bi-Convex Lens, Ø1", f = 50.0 mm, Uncoated
ER3-P41Cage Assembly Rod, 3" Long, Ø6 mm, 4 Pack
TR21Ø1/2" Optical Post, SS, 8-32 Setscrew, 1/4"-20 Tap, L = 2"
PH2E1Ø1/2" Pedestal Post Holder, Spring-Loaded Hex-Locking Thumbscrew, L=2.19"
CF125C1Clamping Fork, 1.24" Counterbored Slot, 1/4"-20 Captive Screw
View Metric Product List
Item #QtyDescription
PL2011Compact Laser Module with USB Connector, 520 nm, 0.9 mW (Typ.)
AD11F1SM1-Threaded Adapter for Ø11 mm, ≥0.35" (8.9 mm) Long Cylindrical Components
CP33/M2SM1-Threaded 30 mm Cage Plate, 0.35" Thick, 2 Retaining Rings, M4 Tap
MLA1M2Ø1" Mounted PMMA Microlens Array, Uncoated, EFL = 4.7 mm
CP6T2SM1-Threaded 30 mm Cage Plate, 6.0 mm Thick
LB14711N-BK7 Bi-Convex Lens, Ø1", f = 50.0 mm, Uncoated
ER3-P41Cage Assembly Rod, 3" Long, Ø6 mm, 4 Pack
TR50/M1Ø12.7 mm Optical Post, SS, M4 Setscrew, M6 Tap, L = 50 mm
PH50E/M1Ø12.7 mm Pedestal Post Holder, Spring-Loaded Hex-Locking Thumbscrew, L=54.7 mm
CF125C/M1Clamping Fork, 31.5 mm Counterbored Slot, M6 x 1.0 Captive Screw

Posted Comments:
Zhouyu Wang  (posted 2022-09-05 11:29:22.877)
I wonder if this kind of microlens array could be used for imaging devices such as lightfield camera.We are looking for similar products for imaging purpose.
mdiekmann  (posted 2022-09-05 10:45:42.0)
Thank you for contacting us! A member of our local tech support team will reach out to you directly to discuss your application.
ke wang  (posted 2021-09-29 12:13:30.187)
1. I want to know the damage threshold of MLA11 PMMA microlens array my laser: DPSS 532nm laser power:300mw working mode:CW beam diameter:6-9mm
soswald  (posted 2021-10-14 06:14:52.0)
Dear Ke Wang, thank you for your feedback. We have not formally tested the damage threshold for MLA11. I have reached out to you to discuss your application in more detail and provide further assistance.
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Unmounted PMMA Microlens Arrays

Based on your currency / country selection, your order will ship from Newton, New Jersey  
+1 Qty Docs Part Number - Universal Price Available
MLA1 Support Documentation
MLA110.0 mm x 9.8 mm PMMA Microlens Array, Uncoated, EFL = 4.7 mm
$32.94
7-10 Days
MLA11 Support Documentation
MLA1110.0 mm x 9.8 mm PMMA Microlens Array, AR Coated: 420 - 700 nm, EFL = 4.7 mm
$82.33
Today
MLA12 Support Documentation
MLA1210.0 mm x 9.8 mm PMMA Microlens Array, AR Coated: 650 - 1050 nm, EFL = 4.7 mm
$82.33
7-10 Days
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Ø1" (Ø25.4 mm) Mounted PMMA Microlens Arrays

Based on your currency / country selection, your order will ship from Newton, New Jersey  
+1 Qty Docs Part Number - Universal Price Available
MLA1M Support Documentation
MLA1MØ1" Mounted PMMA Microlens Array, Uncoated, EFL = 4.7 mm
$98.80
Today
MLA1M1 Support Documentation
MLA1M1Ø1" Mounted PMMA Microlens Array, AR Coated: 420 - 700 nm, EFL = 4.7 mm
$153.69
Today
MLA1M2 Support Documentation
MLA1M2Ø1" Mounted PMMA Microlens Array, AR Coated: 650 - 1050 nm, EFL = 4.7 mm
$153.69
Today