Complete M² Measurement Systems

  • Complete M2 Measurement Systems for UV, Visible, and IR Wavelengths
  • For CW & Pulsed Sources


M2 Measurement System
with a Scanning-Slit Beam Profiler


The M2 measurement system
uses a retroreflector to change
the position of the beam waist
with respect to the beam profiler.

Related Items

Please Wait
M2 System Alignment Laser
Click to Enlarge

The included alignment laser is shown mounted in place of the beam profiler. Use the beam output from the center of the input aperture to align the test laser source with the axis of the M2 measurement system. 


  • Self-Contained Systems for Measuring Laser Beam Quality
  • Measure Beam Properties Including M2, Divergence, Focus Diameter, Waist Position, and Rayleigh Length
  • 2 Beam Profiler Options
  • Systems Cover 250 nm - 2700 nm Wavelengths, See Table Below for Options
  • Compliant with ISO 11146 Standards for Beam Quality Measurements

Thorlabs' M2 Measurement Systems provide self-contained, turnkey solutions for measuring M2, divergence, focus diameter, waist position, Rayleigh length and other laser beam quality metrics. Pre-configured, factory-aligned systems covering wavelength ranges between 250 nm and 2700 nm are available. Choose from among systems that have a scanning-slit beam profiler or no beam profiler. Each system includes a set of lenses, an alignment laser, and a variety of accessories. Configuration options are outlined in the table below.

M2 System Lens Holder
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Several lenses with AR-coatings optimized for different wavelength ranges are included with each M² measurement system. They are mounted in a quick-release mounting carriage so that they can be easily exchanged.

The M2 factor, also called the beam quality factor or the beam propagation factor, is a measure of the quality of a beam. This parameter is defined as the ratio of the beam parameter product (waist size times the far-field divergence angle) of a laser beam to that of a diffraction-limited Gaussian beam at the same wavelength. A value of 1 is indicative of a pure TEM00 beam (or a diffraction-limited beam). Higher values imply that a beam is not strictly a TEM00 beam. Please see the product manual for more details on the M2 parameter.

Thorlabs' scanning-slit beam profilers are compatible with near-Gaussian beams. Scanning-slit beam profilers acquire power measurements while sampling segments of the beam along two orthogonal axes, and the beam profile is reconstructed from these measurement data. These beam profilers measure pulsed laser beams using an averaging technique.

Extension Sets for Thorlabs' Beam Profilers
Our extension sets without beam profilers are offered for users interested in adding M2 measurement capability to one or more of Thorlabs' beam profilers that were purchased separately. These extension sets convert any of our BP209 Scanning Slit Beam Profilers, BC207 CMOS Camera Beam Profilers, or previous-generation BP10x Scanning Slit and BC106N CCD Camera Beam Profilers into a fully automated, motorized M2 analysis system. Each extension set includes mounting adapters for the BP209 slit and BC207 camera beam profilers that raise the input port to the height of the beam path through the M² analysis system. To purchase the adapter compatible with the previous-generation BC106N camera profilers, please contact Tech Support.

M2 Measurement Technique
The M2 measurement system acquires measurements while translating mirrors inside of the enclosure vary the beam path length. The focusing lens and the beam profiler, which is mounted to the front of the enclosure, remain stationary during operation. The two moving mirrors form a retroreflector, and they are mounted on a translation stage. The mirrors in the M2MS-based systems are optimized for 400 nm - 2700 nm wavelengths, while those in the M2MS-AL-based systems are for 250 nm - 600 nm wavelengths. The length of the beam path can be varied by 200 mm (-100 mm to +100 mm centered about the focal plane), which corresponds to the stage translating over its full 100 mm range. The stage has a maximum velocity of 500 mm/s, and a typical measurement can be completed in 15 - 30 seconds. 

M2 System Alignment LaserEach extension kit ships with a Class 1 alignment laser.

Alignment Laser and Other Included Accessories
Each system includes a set of lenses with 250 mm focal lengths, an alignment laser, and additional accessories. The lens set included with the M2MS-based systems cover wavelengths between 350 nm and 3000 nm, and those included with the M2MS-AL-based systems are for wavelengths between 290 nm and 700 nm. As is shown in the image to the left, the AR coated lenses are attached to the input port using the CXY1Q XY translating mount that includes the CXY1QF quick-release plate, which enables lenses to be easily exchanged and translated by ±1 mm. Please see the Shipping List tab for a list of the lenses included with each system. The alignment laser is a useful tool that assists the user in coarsely aligning the test laser with the M2 measurement system. As shown in the image above, the alignment laser mount in place of the beam profiler. The alignment laser beam exits the center of the input port. It can be steered using any of our kinematic mirror mounts equipped with metallic or dielectric mirrors. After aligning the test laser, remove the alignment laser and install the beam profiler in its place.

Beam Software and Programming Guides
The M2 measurement systems are controlled via the Thorlabs Beam software package, which is also used to control our beam profilers, enabling accurate measurements of a variety of beam-related parameters. Please see the User Interface tab for an introduction to the software's capabilities and GUI, and the manuals for the system of interest for a detailed discussion. The software can be downloaded from the Software tab, as well as programming reference guides for LabVIEW™, Visual C++, Visual C#, and Visual Basic.

Housing Features
The side of the M² measurement system features ports for various peripherals. Two USB 2.0 (type A) hubs are provided and can be used to connect to the slit beam profiler and one other device such as the TSP01 USB temperature and humidity sensor. The phono jack supplies power to the alignment laser, and the mini-B USB port is used to connect to the controlling PC. The translation stage inside of the system also communicates with the computer through this port.

The housing of the M2 measurement system rests on four feet at the corners created by a 0.5 mm deep relief cut in the base. A set of RDF1 rubber damping feet are included. Five M6 taps allow for the installation of four feet with one near each corner or in a configuration using three feet. Four CL6 table clamps are also provided to secure the system to an optical table.

Item #a M2 System
Wavelength Range
Included Beam Profiler Mirrorsb Wavelength Range 
Covered by Lensesc
Type Wavelength Range Item # Type Wavelength Range
M2MS-AL 250 - 600 nmd Nonee Aluminum 250 - 600 nm 245 - 700 nm
M2MS 400 - 2700 nmd Protected Silver 400 - 2700 nm 350 - 3000 nm
M2MS-BP209VIS-AL(/M) 250 - 600 nm Scanning Slit 200 - 1100 nm BP209-VIS(/M) Aluminum 250 - 600 nm 245 - 700 nm
M2MS-BP209VIS(/M) 400 - 1100 nm Protected Silver 400 - 2700 nm 350 - 3000 nm
M2MS-BP209IR(/M) 900 - 1700 nm 900 - 1700 nm BP209-IR(/M) Protected Silver 400 - 2700 nm 350 - 3000 nm
M2MS-BP209IR2(/M) 900 - 2700 nm 900 - 2700 nm BP209-IR2(/M) Protected Silver 400 - 2700 nm 350 - 3000 nm
  • Imperial and metric Item #s differ only in the threading of their tapped holes.
  • The mirrors are permanently installed inside of the system and cannot be removed.
  • Lenses for use further into the UV and IR than those included with the systems are available separately, as are additional CXY1QF mounting carriages.
  • Supported wavelength range. Wavelength range of a specific M2 system is determined by the beam profiler integrated with the system.
  • Adapters for the BP209 Scanning Slit and the BC207 CMOS Camera Beam Profilers are included.

M² Analysis Systems with a Dual Scanning-Slit Beam Profiler

Item # M2MS-BP209VIS-AL(/M) M2MS-BP209-VIS(/M) M2MS-BP209IR(/M) M2MS-BP209IR2(/M)
Beam Profiler Item # BP209-VIS(/M) BP209-IR(/M) BP209-IR2(/M)
System Wavelength Range 250 - 600 nm 400 - 1100 nm 900 - 1700 nm 900 - 2700 nm
Beam Diameter Range 20 µm - 9 mm (at Beam Profiler Input Aperture)a
Power Range 1 µW to 10 W (Depending on Beam Diameter; See Plot Below Right)
Internal Translation Stage Travel Range 100 mm
Velocity (Max) 500 mm/s
Effective Translation Range 200 mm, -100 mm to +100 mm from Focal Point
Lens Focal Length 250 mm
Optical Axis Height 70 mm (Without Additional Feet)
M² Measurement Range ≥1.0 (No Upper Limit)
Typical M² Accuracy ±5%, Depending on Optics and Alignment
Accepted Beam Diameterfor 5% Uncertainty 20 µm - 4.5 mm (at Beam Profiler Input Aperture)
Minimum DetectableDivergence Angle <0.1 mrad
Applicable Light Sources CW and Pulsed Sources ≥300 kHz
Typical Measurement Time 15 - 30 s (Depending on Beam Shape and Settings)
General Specifications
Size 300 mm x 175 mm x 130 mm
Weight 4.6 kg
  • This is the range of diameters that the beam profiler can measure in standard mode. The scanning slit beam profilers also support a knife-edge mode that can measure beam sizes down to Ø2.5 µm, but this mode should not be used for M² or divergence measurements.
Range of Accepted Beam Diameters
Click to Enlarge

The range of beam diameters at the input lens that can be analyzed by the M² measurement systems for two cases: M² = 1 and M² = 2 are limited by the wavelength-dependent bounds plotted above. These limitations apply only to measurements of M² and related parameters, such as the Rayleigh length. For other measurements, such as standard beam analysis or divergence measurements, the standard beam diameter ranges given in the table immediately above this plot apply.
BP209 Series Operating Ranges
Click to Enlarge

These maximum and minimum beam power limits are provided as functions of 1/e2 beam diameter for knife-edge and scanning-slit measurements and may not apply to measurements of total power. Please see the scanning-slit beam profiler page for more information. To prevent thermal damage to the measurement head, do not operate for longer than 5 s with input powers exceeding 1 W.


M² Analysis Systems without an Included Beam Profiler

Item # M2MS-AL M2MS
Wavelength Range 250 - 600 nma 400 - 2700 nma
Beam Profiler Compatibility Scanning Slit Beam Profilers: BP209 and Previous-Generation BP10x
Camera Beam Profilers: BC207 and Previous-Generation BC106b
Internal Translation Stage Travel Range 100 mm
Velocity (Max) 500 mm/s
Effective Translation Range 200 mm, -100 mm to 100 mm from Focal Point
Lens Focal Length 250 mm
Optical Axis Height 70 mm (Without RDF1 Feet Installed)
M² Measurement Range ≥1.0 (No Upper Limit)
Typical M² Accuracy ±5% (Depending on Optics and Alignment)
Minimum Detectable Divergence Angle <0.1 mrad
Applicable Light Sources CW, Pulseda
Typical Measurement Time 15 - 30 s (Depending on Beam Shape and Settings)
General Specifications
Size 300 mm x 175 mm x 109 mm (Without Beam Profiler)
Weight 4.2 kg
  • Depending on the beam profiler used with the system. The wavelength range applies to the mirrors used in the retroreflector. The M2MS-AL includes a set of AR-coated lenses that covers the 250 - 700 nm range, while the M2MS includes a set of AR-coated lenses that cover the 350 - 1700 nm range. Additional lenses with AR-coatings extending deeper into the IR and CXY1QF mounting carriages are available separately.
  • Contact Tech Support to purchase the appropriate mounting adapter for the previous-generation BC106 camera profilers.
Item # Beam Profiler Beam Profiler Adapters Included Lensesa Other Included Accessories
M2MS-AL None Adapters for BC207
and BP209 Beam Profilers
Lenses with f = 250 mm Mounted
in CXY1QF Quick Release Carriage:
LA4158-UV (AR Coated for 245 - 400 nm)
LA1461-A (AR Coated for 350 - 700 nm)
Alignment Laser
USB 2.0 to Mini B Cable, 3 m
USB 2.0 to Mini B (Angled), 0.5 m
15 V, 3.0 A Power Supplyb
0.05" Hex Key3 mm Balldriver
CL6 Table Clamps (Qty. 4)
M4 Cap Screwsc (Qty. 6)
M2MS None Adapters for BC207
and BP209 Beam Profilers
Lenses with f = 250 mm Mounted
in CXY1QF Quick Release Carriage:
LA1461-A (AR Coated for 350 - 700 nm)
LA1461-B (AR Coated for 650 - 1050 nm)
LA1461-C (AR Coated for 1050 - 1700 nm)
LA5255-D (AR Coated for 1650 - 3000 nm)
M2MS-BP209VIS-AL(/M) BP209-VIS(/M) Beam Profiler is Pre-Installed Lenses with f = 250 mm Mounted
in CXY1QF Quick Release Carriage:
LA4158-UV (AR Coated for 245 - 400 nm)
LA1461-A (AR Coated for 350 - 700 nm)
M2MS-BP209VIS(/M) BP209-VIS(/M) Lenses with f = 250 mm Mounted
in CXY1QF Quick Release Carriage:
LA1461-A (AR Coated for 350 - 700 nm)
LA1461-B (AR Coated for 650 - 1050 nm)
LA1461-C (AR Coated for 1050 - 1700 nm)
M2MS-BP209IR(/M) BP209-IR(/M) Lenses with f = 250 mm Mounted
in CXY1QF Quick Release Carriage:
LA1461-A (AR Coated for 350 - 700 nm)
LA1461-B (AR Coated for 650 - 1050 nm)
LA1461-C (AR Coated for 1050 - 1700 nm)
LA5255-D (AR Coated for 1650 - 3000 nm)
M2MS-BP209IR2(/M) BP209-IR2(/M) Lenses with f = 250 mm Mounted
in CXY1QF Quick Release Carriage:
LA1461-A (AR Coated for 350 - 700 nm)
LA1461-B (AR Coated for 650 - 1050 nm)
LA1461-C (AR Coated for 1050 - 1700 nm)
LA5255-D (AR Coated for 1650 - 3000 nm)
  • All included lenses have a 250 mm focal length to ensure that the focal plane for a perfectly collimated beam is at the beam profiler when the retroreflector is positioned at the midpoint of the translation stage. Additional lenses for shorter UV or longer IR wavelengths and magnetic mounting plates are available separately to allow further customization of your system.
  • The appropriate mains cord for the power supply is included based on the ordering location.
  • These are extra screws provided for securing the beam profiler adapter to the M2MS system base plate. (One packet of 6 screws included.)

Main Window

Beam Profiler General Window
Click to Enlarge

The main window of the GUI includes the menu bar, tool bar, status bar, and a frame where several windows can be displayed. This view includes a Beam Settings Panel that displays all important information in a single location and can be unpinned from the main window and moved to a second location, such as another monitor.

Thorlabs Beam Software for Thorlabs' M² Measurement Systems

  • GUI with Adjustable Layout: Windows with Different Measurement Results
    can be Rearranged and Resized within the Workspace
  • M² and Divergence Measurements Compliant with ISO 11146
  • Data Export:
    • Results can be Exported from Windows in Different Formats
    • Sequential Saving of Long Term Test Data
  • Pass/Fail Tests with Customizable, Lockable and Saveable Pass/Fail Parameters
  • 2D and 3D Views of the Beam Profile
    • Selectable Overlays such as Peak, Centroid, and Cut Profiles
    • 3D View is Fully Rotatable
  • Power Correction Available for Absolute Power Measurements
  • Supports TSP01 for Temperature Logging During Long-Term Measurements

Thorlabs' M² Measurement Systems, Scanning Slit Beam Profilers, and Camera Beam Profilers all use the Thorlabs Beam software package. The screenshots below highlight key features and measurement modes that can be used with our M² Measurement systems, including M² and divergence measurements, 2D views of the beam profile, and measurement of the beam stability and position.

The latest version of the Beam package can be downloaded from the Software tab.

M2 Measurements

M² Measurements
Click to Enlarge

The beam diameter and location of the beam waist are shown after an M² analysis has been performed.
Note: This functionality is only enabled when one of the M² analysis systems is connected to the PC.

Divergence Measurements

Divergence Measurements
Click to Enlarge

The divergence of the beam is shown after an M² analysis has been performed. Note: This functionality is only enabled when one of the M² analysis systems is connected to the PC.

2D Projection (Camera Beam Profilers Only)

Beam Profiler 2D View
Click to Enlarge

The 2D Projection graph shows the image from the Beam Profiler indicating the power intensity distribution within the selected Region of Interest (ROI). Buttons along the side allow users to save the image, show or hide the x and y scales, mark the centroid or peak positions, and display an approximated Beam Ellipse superimposed on the image.

2D Reconstruction (Scanning Slit Beam Profilers Only)

Beam Profiler 2D View
Click to Enlarge

Slit beam profilers only measure two real orthogonal cross sections of the beam (i.e., the beam profile in X and Y). Assuming a Gaussian-like beam profile, the Beam software package can create a 2D reconstruction of the beam profile from the two cross sections, seen in the screenshot above. Buttons along the side allow users to save the image, show or hide the x and y scales, mark the centroid or peak position, and display an approximated Beam Ellipse superimposed on the image.

Calculation Results

The Calculation Results window displays the results of calculations performed by the software, including beam width, centroid and peak positions, power, ellipticity, and fits of the beam profile. This panel also includes a Pass/Fail test. For each parameter, a minimum or maximum can be set as criteria. After the calculations are complete, the user can save them in .txt, csv, or .xls format. In addition to saving single measurement results, diagrams, and device data, the software can automatically sequentially save this information for a series of measurements.

Beam Stability

Beam Stability
Click to Enlarge

The Beam Stability Window allows the stability versus time to be recorded and viewed. Display options include the Centroid Positions, Latest Plotted Centroid, Rolling Centroid Positions, Reference Positions, and Smallest Enclosing Circle.

Plot Centroid and Peak Positions

Plot Position
Click to Enlarge

The positions of the X and Y peak and X and Y centroid positions can be displayed as a function of time in this window.
System Requirements
Beam Profiler BP209 BC207
Operating System Windows® 8.1 (32 Bit or 64 Bit),10 (32 Bit or 64 Bit)
Connectivity USB 2.0 High Speed Port USB 3.0 High Speed Port
Monitor Resolution 1024 x 758 Pixel (Min), ≥16 Bit Color Depth
Processor (CPU) Minimum Pentium 4 (2.6 GHz Min),
Intel or A64 3000+ AMD (3.0 GHz Min)
≥3.0 GHz Intel Core
(i5 or Higher)
Recommended Intel Core 2 i5 or AMD Ryzen 5 (3.0 GHz Min) 
Memory (RAM) Minimum 4.0 GB RAM
Recommended 8.0 GB RAM
Graphics Adapter Required OpenGL (Specification GLX 1.3 Up)
Minimum Radeon: X100 Series ≥X850, 
X1000 Series ≥X1600, HD Series ≥2400;
Geforce: 7 Series ≥7600,
8 Series ≥ 8500, 9 Series ≥9600;
Quadro: FX Series ≥FX770M
Recommended Radeon: HD Series ≥7000;
Geforce: GTX Series ≥500;
  • Intel Core i3 processors and mobile versions of Intel processors may not satisfy the requirements

Software Packages for Thorlabs' Beam Profilers

The Beam software package can be downloaded by clicking on the Software button below. The software download page also offers programming reference notes for interfacing with our beam profilers using LabVIEW™, Visual C++, Visual C#, and Visual Basic. Please see the Programming Reference tab on the software download page for more information and download links.


  • Settings Panel Displays All Important Parameters in a Central Location
  • Customizable Calculation Results
    • Measured Parameters can be Individually Hidden
    • Adjustable Row Heights
    • Enhanced Beam Stability Window Measures and Displays the
      Smallest Enclosing Circle Around the Centroid Point Cloud
  • Alignment Wizard to Aid in Correctly Aligning the M2MS M2 Measurement Systems
  • Language Settings of English, German, or Chinese


Version 8.0.5157.366 (October 14, 2021)

Standard full version of software package for 32-bit and 64-bit Windows with driver and graphical user interface for operating the device in standard applications.

Software Download

Posted Comments:
Grzegorz Zeglinski  (posted 2021-07-02 08:51:27.58)
Hi, I have BP104-IR (800-1700nm) number M00245811 and original CD with software for BP v 2.8. CD has applcation software, drivers libraries and manual. I have original printed-manual. Problem any software (V2.8, v.6.0, v6.2, v7) doesn't see driver BP! I read info form manual and form files but it doesn't work. I check it in XP-32 nad win7-64. I wiil be very grateful for help. Some years ago the BP was working. Cabel USB is original. Best Regards Grzegorz ZEglinski
MKiess  (posted 2021-07-06 07:49:15.0)
Dear Grzegorz, thank you very much for your inquiry. I have contacted you directly to provide further assistance and troubleshooting.
Luke Parker  (posted 2021-04-21 13:10:18.443)
Want to speak about the technical capabilities of this measurement system and training on use. Want to ensure this is the correct setup for measuring the welding beams at our plant prior to ordering. Also interested in discussing options for temporal beam profiling.
soswald  (posted 2021-04-23 10:57:35.0)
Dear Luke, thank you for your feedback. I have contacted you directly to discuss your application in more detail.
user  (posted 2021-03-03 20:37:55.623)
The documentation related to this M^2 measurement system was AMAZING! I just wanted to give kudos to whoever wrote it. There are sections in there that are better and more useful than many white papers I have read. No questions here, just please let the author know they did a great job.
MKiess  (posted 2021-03-05 06:51:34.0)
Thank you very much for this feedback. We are glad to hear that you are satisfied with the documentation of the M^2 system and that you like the comprehensiveness of the descriptions.
Alexander Radnaev  (posted 2020-10-27 09:57:13.607)
Hello, when can we expect Python API for the wonderful M^2 measurement system and the beam profilers? Python is one of the most modern, useful, convenient, ubiquitous programming languages - would be great for your devices to support it. Thanks!
MKiess  (posted 2020-10-28 10:33:46.0)
Dear Alexander, thank you very much for the feedback. Unfortunately, there is no driver available for the complete M2 system at the moment. In general it is possible to program the optical delay line within the M2 system and the Beam Profiler individually. This means that the combination of optical delay line and Beam Profiler is possible, but there are no commands available e.g. for measuring the divergence or the M2 value. These would have to be programmed by the user.
Alexander Radnaev  (posted 2020-09-03 09:44:38.713)
Overall pretty good product, but there is one big gap in the software data analysis: while it supports Gaussian fit for a given profile, there is no way to use beam diameter extracted from Gaussian fit to be used in the actual M^2 scan and measurement based response from the technical support. It's a big problem because available 4 sigma method (the ISO deterministic second moment statistic) and clip (find 13.5% level datapoint) methods can be vastly wrong (by a factor of 2x, 100% error) - because they either too sensitive to noise or structure of the beam. I've spent hours with technical support just to get an answer that the software down't support Gaussian fit for M^2 scan measurement (see CAS-291612-F7M0B8 case). My wish Thorlabs invests into adding option "beam diameter from Gaussian fit" into the "Beam Quality Settings -> Beam Width for M^2 Measurement" in addition to the 5 options (see page 121
dpossin  (posted 2020-09-07 07:38:59.0)
Dear Alexander, Thank you for your feedback. I will discuss this with our development engineers and reach out to you via mail.
user  (posted 2020-07-21 21:23:59.38)
Hi, I have two M^2 systems, and would like to know the reference plane for the two systems. Also, doe the thorlabs software account for chromatic shift of the ideal focus when changing the wavelengh?
dpossin  (posted 2020-07-27 05:59:41.0)
Dear Customer, Thank you for your feedback. The distance between the plane of the beamprofiler and the reference plane of the M2 system is measured during manufacturing and can be found out with the serial number. Typically the distance is about 126mm. It is not needed to know the exact focal lenght in order to determine the M2 value. All you need is the divergence angle, the beam waist and the wavelength but there is no chromatic aberration correction. I am reaching out to you in order to provide further information.
user  (posted 2020-03-07 18:30:17.113)
While using your BC106NVIS/M meter, I have two questions: 1) Do the hyperbolic fit parameters correspond to the beam focused by the lens or to the tested beam? 2) What is the reference plane (Z=0) for the "Beam waist position" parameter? Thanks in advance.
nreusch  (posted 2020-03-09 08:12:39.0)
This is a response from Nicola at Thorlabs. Thank you very much for your inquiry. The hyperbolic fit parameter corresponds to the focused beam. You can derive the respective values of the tested unfocused beam before the lens. We are currently working on a software solution that will make it more convenient to retrieve these data. I will contact you directly to discuss the calculation of the parameters before the lens and send you a drawing that shows the position of the reference plane.
buk  (posted 2017-08-16 13:45:08.627)
Hi, I need to characterise lasers from 355 nm to 2um. The M2MS-BC106VIS/M indicated the mirrors are able to reflect well only above 400 nm. So at 355 nm the model I am choosing can still measure the UV laser beam for the M2 system?
mvonsivers  (posted 2017-08-17 04:59:53.0)
This is a response from Moritz at Thorlabs. Thank you for your inquiry. The mirrors have a protected silver coating and you can find a typical reflectance plot in the link below. At 355 nm the reflectance is typically about 80% but it is falling off steeply. Due to variations between different coating runs the reflectance could also be significantly lower. Also please note that the beam profiler is only sensitive up to a wavelength of 1100 nm. We will contact you directly to discuss alternative options.
marcus.roeppischer  (posted 2017-02-14 02:04:05.767)
Is it possible to use the product for collimated Laser to measure the divegence angle?
tcampbell  (posted 2017-02-14 08:53:23.0)
Response from Tim at Thorlabs: thank you for your feedback. Yes, these systems can be used to measure the divergence of a beam. Details on beam divergence measurement can be found in the manual for each beam profiler.
david.szwer  (posted 2015-09-23 11:56:19.11)
To follow up Amanda's question, I use the M2MS without a lens, to profile a converging beam. It would be helpful to be able to relate the z-position of the waist to a physical position - e.g. adding a number to get the distance from the front edge of the M2MS's baseplate. That would be a helpful addition to the manual.
shallwig  (posted 2015-09-24 06:06:56.0)
This is a response from Stefan at Thorlabs. Thank you very much for your feedback . I discussed your inquiry with the responsible engineer and we will implement these information about the distances in future software versions. These distances are not the same for all devices. So far we can provide the distances for your specific M2MS Set when knowing which beam profiler model you are using and the serial number of the M2MS Kit. I will contact you directly to discuss this in more detail.
amanda  (posted 2015-07-01 15:16:20.09)
This product would be more useful if the manual was easier to read. For example, you should not have "unpack your box and check to make sure everything is there" on the 80th page. It should be in the front. The manual is hard to understand and frequently jumps around (is not easy to track). There needs to be a more sequential ordering to the pages. Additionally, some of the product information described on the website should also be included in the manual so that the reader does not have to keep running over to the computer, then back to the manual. Other than that, seems like a cool piece of equipment.
shallwig  (posted 2015-07-03 03:04:50.0)
This is a response from Stefan at Thorlabs. Thank you very much for your feedback, we are always thankful for any suggestions to make our documentations better understandable and more clear. Currently we are working on a new manual and this is supposed to be more clear in its texture. I will contact you directly to check which information from the Web you are missing in the manual and to discuss if there are any further questions I can help with.

M2 Measurement System

M2MS Configurator

Please build your system below:

1. Beam Profiler
This M2 Meter can be configured with either a scanning slit or camera beam profiler optimized for UV, visible, or IR wavelengths. The choice of beam profiler will also determine if your system will follow metric or imperial thread standards. Alternatively, you may choose to configure the system without a beam profiler.

Please Choose Your Beam Profiler:

2. Mirrors
Along with the beam profiler, the choice of mirrors will set the wavelength range of your configured system.

Please Choose Your Mirrors: