Complete M² Beam Quality Analysis System
OVERVIEW
Features
- Complete, Preassembled, and Pre-Aligned System
- Typical 5% Accuracy for Beam Quality Measurements
- Measures M², Divergence, Waist Diameter, Rayleigh Range, and Astigmatism
- Compatible with CW and Quasi-CW Pulsed Laser Sources with Repetition Rate ≥ 300 kHz
- Compliant with ISO11146 International Standards for Beam Quality Measurements
- Complete, Ready-to-Use System with Compact and Flexible Design
- Live Data Readout via TCP/IP to a DataSocket Server to Allow Easy Access by Other Programs
Thorlabs’ M2SET M² Meter is designed for automated M² beam quality analysis. This system allows the measurement of the M² (times diffraction limit) factor of a laser beam and its reciprocal beam quality, K=1/M², together with the divergence, waist diameter, Rayleigh range, and astigmatism of the beam.
The M² Meter is available as a complete, ready-to-use system, preassembled to meet the requirements of most general applications. The system consists of a scanning slit beam profiler* fixed on a 150 mm long translation stage, two mounted Ø1" adjustable mirrors used to direct the laser beam into the beam profiler, an iris diaphragm to aid with beam alignment, and a lens mounted in a flip mount for easy insertion and removal of the lens from the beam path. All of these components are mounted on a 24” x 6” (600 x 150 mm) breadboard. If you would like to purchase an M² Meter with a different length translation stage, please contact Tech Support for information and pricing. Each component of the M²-Meter system is also available separately. An additional scanning slit beam profiler can be purchased to extend the wavelength range of your M² Meter.
The height and horizontal position of the iris diaphram and focusing lens, as well as the position of the second mirror along the beam path, are all pre-aligned to the center of the entrance aperture of the scanning slit beam profiler. Alignment of an input laser beam can be achieved entirely through adjustments of the two Ø1" mirrors. A manual containg a detailed description of this procedure can be viewed by clicking on the red document icon next the part numbers below.
If you already own one of Thorlabs' scanning slit beam profilers or require a different travel range, you can construct an M² Meter by ordering the BP1M2 Extension Set and the appropriate optical components. The BP1M2 Extension set consists of a translation stage and mounting accessories. Additional components to build the optical setup, such as focusing lenses, holders, and beam alignment mirrors, are listed on the Configurations tab and must be purchased separately. See the Tutorial tab for guidance in selecting the correct focal length of the focusing lens and the correct length of the translation stage.
Thorlabs' Beam software package is included with both the M2SET-BP209 M² analysis system or the BP1M2 extensions sets (see the Software tab to download a copy).
Functionality
To truly characterize a laser beam, more than a single profile must be measured along the propagation axis of the focused beam. According to the ISO11146 standard, at least five beam measurements in the linear divergence region and another five measurements in the waist region need to be taken. The M2SET system can easily make all the required measurements.
During operation, the profiler automatically moves step-wise along the beam path and analyzes the beam at various positions. The beam quality is determined by fitting a curve to the beam diameters measured as a function of profiler position. To perform the tests, the laser beam must be aligned with the translation path of the stage and focused within a certain divergence angle. The pre-mounted and pre-aligned system makes this process much simpler for the user.
After the measurement of a focused beam is complete, the focusing lens can be flipped out of the beam so that the parameters of the original unfocused laser beam can be measured. By combining both results, the complete parameter set for the unfocused beam is derived, including the beam waist diameter, waist position, and Rayleigh range.
The supplied Thorlabs Beam software (see the Software tab) has an easy-to-operate Graphical User Interface (GUI) that fully supports automated M² measurements as well as basic beam profiling measurements. The same software package is used to operate our scanning slit beam profilers when they are not integrated into an M² measurement system. Reports can be stored to a file or transmitted to another application, such as LabView, via DataSocket.
Thorlabs also offers a CCD beam profiler and extension set for M2 measurements using the CCD profiler.
*Note: The knife-edge mode of the BP209 beam profilers cannot be used for M2 measurements.
SPECS
| Item # | M2SET-BP209VIS | M2SET-BP209VIS/M | M2SET-BP209IR | M2SET-BP209IR/M |
|---|---|---|---|---|
| Component Type | Imperial | Metric | Imperial | Metric |
| Breadboard Footprint | 24" x 6" | 600 mm x 150 mm | 24" x 6" | 600 mm x 150 mm |
| Beam Profiler | BP209-VIS | BP209-VIS/M | BP209-IR | BP209-IR/M |
| Wavelength Range | 400 nm to 1100 nm | 900 nm to 1700 nm | ||
| M² Measurement Range | ≥ 1.0 | |||
| Typical M² and K Accuracy | ±5 %, Depending on Optics and Alignment | |||
| Beam Diameter Range at Beam Profiler Input Aperture | 20 µm to 9 mm | |||
| Accepted Beam Diameter at Beam Profiler Input Aperture for 5% Accuracy in M² Measurement | 20 µm to 4.5 mm | |||
| Maximum Input Beam Diameter at the Lensa | 14 mm, Depending on Wavelength (See Diagram Below) | 20 mm, Depending on Wavelength (See Diagram Below) | ||
| Minimum Detectable Divergence Angle | <0.1 mrad | |||
| Applicable Light Sources | CW and Pulsed Sources ≥ 300 kHz | |||
| Power Range | 10 nW to 10 W, Depending on Beam Diameter | |||
| Translation Range | 150 mm -100 mm to +50 mm from Focal Point | |||
| Lens Focal Length | 200 mm | |||
| Optical Axis Height | 50 mm to 120 mmb | |||
| Typical Measurement Time | 20 s to 40 s, Depending on Beam Shape and Settings | |||
Select your operating wavelength on the x-axis and go up to the curve representing waist diameter. Then read out the maximum acceptable initial beam diameter at the vertical axis. For a waist diameter at the measurement limit (20 µm, red curve) an operating wavelength of 633 nm yields a maximum beam diameter of 8.1 mm. Choosing a somewhat higher waist diameter of (e.g. 30 µm, green curve) is recommended in order to relax the demands on the Beam Profiler. This will allow it to operate at a higher measurement speed and achieve better accuracy at the expense of the maximum allowed input beam diameter, which drops down to 5.4 mm at 633 nm. Further limitations on the input beam diameters are imposed by the 20 mm usable lens diameter and the 9 mm Beam Profiler aperture.
TUTORIAL
Determining the Focal Length of the Focusing Lens and the Travel Length of the Stage
Diagram A
Click to Enlarge
Diagram B
Click to Enlarge
What is M2
The M2 value is the ratio of a laser beam’s divergence to the divergence of a diffraction-limited beam of the same waist size. It is used as an industry standard for beam quality1. Simply put, it can be thought of as a measure of how “purely” TEM00 a beam is. An M2 value of 1, for example, is a pure TEM00 beam. Anything higher indicates that the beam is not strictly a TEM00 beam (by definition, M2 >1). Because of this mode mixing, a laser will have a waist size that is larger than if it's beam were a pure TEM00 mode. The M2 value shows how much “larger” a beam is for a fixed divergence if it is mixed with non-TEM00 modes. Not only will mixing modes cause the minimum waist size to increase, but it will also change the beam diameter (d(z)) as the beam propagates, which effects the intensity gradient of the beam. For applications sensitive to mode matching or intensity gradients (e.g., frequency doubling or trap depths for laser cooling and trapping, respectively), the M2 value is of significant importance.
M² measurements require a focused beam with a beam waist exceeding 20 µm. The following guidelines aid in selecting the optimal focal length of the collimating lens and the optimal length for the translation stage for the BP1M2 Series Beam Analysis Extension Kit. The M2SET Series is a complete beam analysis system including focusing lens and stage with parameters that meet the requirements of typical M2 beam analysis applications.
Divergent Beams
For divergent beams, a hyperbolic curve fit to the measured data yields reliable and repeatable values for beam waist diameter and position, Rayleigh range, divergence angle, beam pointing direction, waist asymmetry, divergence asymmetry, and astigmatism.
Nearly Parallel Beams
For nearly parallel beams, the divergence angle can be accurately determined by a linear curve fit.
Selecting Focal Length
Diagram A, to the upper right, shows the optimal focal length (f) which depends on the operating wavelength (λ) and the unfocused beam diameter. (See Theory Section below for details.)
To select the appropriate focal length, find your operating wavelength on the X axis of Diagram A and the curve representing your initial (unfocused) beam diameter (1mm to 10mm). Read out the minimal required focal length along the vertical axis. Round it up to the next available focal length (e.g. 50, 100, 150, 200, 300 mm). Lenses with longer focal lengths will generate waist diameters >30µm and relax the measurement requirements for the beam profiler. Refer to the Accessories tab for recommended focusing lenses. Be sure to order the appropriate AR-coating for your wavelength range of interest.
Selecting the Length of the Translation Stage
It is advisable, but not necessary, to make the translation stage length the same as the focal length of the focusing lens. For correct M2 detection, the translation range has to be at least five times the Rayleigh length of the focused beam to cover both the beam waist and the neighboring divergent beam propagation. The Rayleigh length depends strongly on the generated waist diameter and also linearly increases with M2. Therefore, the translation range needs to be longer for bad beam quality (K << 1, M2 >> 1). Diagram B shows the minimal required stage length for M2 = 1 depending on the expected waist diameter.
Select your operating wavelength at the X axis of the Diagram B and go up to the curve representing your expected waist diameter. Then read out the minimal required translation range at the vertical axis. Multiply this result with the highest expected M2 value of your laser source and round it up to the next available translation stage length (50, 150, or 300 mm). Please note this length is a minimum requirement for M2 detection.
If a lens with the optimal focal length is selected according to Diagram A, the resulting waist diameter of 30 µm keeps the required translation range below 50 mm, even for M2 values up to 5. If using the short 50 mm stage to carry the Beam Profiler, it needs to be carefully positioned with respect to the beam waist position for every application. Therefore, longer stage lengths of 150 mm or even 300 mm are advisable for universal setups so that they are ready to use for a variety of laser types, beam diameters, wavelengths, M2 values, and focal lengths. Also, longer stages allow the entire diverging process on both sides of the beam waist to be analyzed without relocating a the stage to the new focus position.
For these reasons, Thorlabs recommends a translation stage length at least as long as the highest focal length that will be used in the setup. Besides this minimum requirement, more flexibility is added to the setup by selecting a longer stage.
Theory Section
Focal Length
The generated beam waist diameter d0 must not decrease below the minimal measurable beam diameter (20 µm) of the Beam Profiler. To allow higher measurement speeds, extend it to d0,min = 30 µm (20 µm diameter requires 1 rev/s for 2 % error).
The beam waist diameter d0 is:
To fulfill this requirement for each wavelength and the highest focusability (M2=1) the divergence angle θ must not exceed a maximum value θmax.
Depending on initial beam size dinit, a minimal focal length f can be calculated.
Refer to Diagram A for quick selection help.
Translation Stage Length
For optimal M2 detection, the translation range should be at least 5 times the Rayleigh length of the focused beam to cover both the beam waist and the neighboring divergent beam propagation. Minimal translation stage length is:
| Variable | Description |
|---|---|
| Lmin | Minimum Required Stage Length |
| zR | Rayleigh Length |
| M2 | Highest Expected M2 Value |
| λ | Operating Wavelength |
| d0 | Beam Waist Diameter |
1Baida Lu, Bin Zhang, and Shirong Luo, Appl. Opt. 38, 4581 (1999)
CONFIGURATIONS
Suggested Accessories for Beam Manipulation
Depending on existing lab equipment, additional parts may be required to focus and align the laser beam for M² measurements. As the BP1M2 Beam Quality Analysis Extension Sets do not include any optics, beam alignment and redirection tools to align your laser beam to the M2 setup may need to be purchased separately. Some suggestions are listed in the tables below.
| Beam Collimation Lenses | ||||
|---|---|---|---|---|
| Lens Description | Uncoated | AR Coated: 350 - 700 nm | AR Coated: 650 - 1050 nm | AR Coated: 1050 - 1620 nm |
| N-BK7 Bi-Convex Lens, Ø1", f = 50.00 mm | LB1471 | LB1471-A | LB1471-B | LB1471-C |
| N-BK7 Bi-Convex Lens, Ø1", f = 100.00 mm | LB1676 | LB1676-A | LB1676-B | LB1676-C |
| N-BK7 Bi-Convex Lens, Ø1", f = 200.00 mm | LB1945 | LB1945-A | LB1945-B | LB1945-C |
| Beam Alignment and Redirection Tools | ||
|---|---|---|
| Description | Imperial Item # | Metric Item # |
| Kinematic Mirror Mount for Ø1" Optics | KM100 | |
| Kinematic Mirror Mount with Visible Laser Quality Mirror | KM100-E02 | |
| Kinematic Mirror Mount with NIR Laser Quality Mirror | KM100-E03 | |
| Periscope Assembly | RS99 | RS99/M |
| Silver Mirrors (2 Needed for Periscope Assembly) | PF10-03-P01 | |
COMPONENTS
M2SET Series Complete M2 Beam Analysis System Shipping List
M2SET-BP209IR(/M)
| Description | Item # | Quantity |
|---|---|---|
| Scanning Slit Beam Profiler, 900 - 1700 nm | BP209-IR (BP209-IR/M) | 1 |
| USB 2.0 Connection Cable, 2m Long | - | 1 |
| 150 mm Translation Stagea with Foot Plates, Mounting Adapters, Power Supply, RS232 Cable, and USB to RS232 Converter | BP1M2-150 | 1 |
| Beam Profiler Software CD ROM (Includes LabVIEW™ and LabWINDOWS™/CVI Driver Set) | - | 1 |
| Operation Manual | - | 1 |
| Optics | ||
| Ø1" Bi-Convex Lens with f = 200 mm in an SM1L03 Lens Tube | LB1945-B in SM1L03 | 1 |
| LB1945-C in SM1L03 | 1 | |
| Protected Silver Mirror | PF10-03-P01 | 2 |
| Mechanics | ||
| 24" x 6" (600 x 150 mm) Breadboard | MB624 (MB1560/M) | 1 |
| Set of 4 Rubber Dampening Feet | RDF1 | 1 |
| Iris Diaphragm | ID12 (ID12/M) | 1 |
| Translating Lens Mount for Ø1" Optics | LM1XY (LM1XY/M) | 1 |
| Flip Mount | FM90 (FM90/M) | 1 |
| Kinematic Mirror Mount | KM100 | 2 |
| Right-Angle Post Clamp | RA90 (RA90/M) | 2 |
| 1.50" (38.1 mm) Tall Post Holder | PH1.5 (PH40/M) | 3 |
| 1.00" (25.4 mm) Tall Post Holder | PH1 (PH30/M) | 1 |
| 3/4" (20 mm) Long Ø1/2" (Ø12.7 mm) Post | TR075 (TR20/M) | 1 |
| 1.5" (30 mm) Long Ø1/2" (Ø12.7 mm) Post | TR1.5 (TR30/M) | 2 |
| 2" (50 mm) Long Ø1/2" (Ø12.7 mm) Post | TR2 (TR50/M) | 1 |
| 4" (100 mm) Long Ø1/2" (Ø12.7 mm) Post | TR4 (TR100/M) | 2 |
| Mounting Base | BA1S | 4 |
| Mounting Screws Includedb | - | - |
M2SET-BP209VIS(/M)
| Description | Item # | Quantity |
|---|---|---|
| Scanning Slit Beam Profiler, 200 - 1100 nm | BP209-VIS (BP209-VIS/M) | 1 |
| USB 2.0 Connection Cable, 2 m Long | - | 1 |
| 150 mm Translation Stagea with Foot Plates, Mounting Adapters, Power Supply, RS232 Cable, and USB to RS232 Converter | BP1M2-150 | 1 |
| Beam Profiler Software CD ROM (Includes LabVIEW™ and LabWINDOWS™/CVI Driver Set) | - | 1 |
| Operation Manual | - | 1 |
| Optics | ||
| Ø1" Bi-Convex Lens with f = 200 mm in an SM1L03 Lens Tube | LB1945-A in SM1L03 | 1 |
| LB1945-B in SM1L03 | 1 | |
| Protected Silver Mirror | PF10-03-P01 | 2 |
| Mechanics | ||
| 24" x 6" (600 x 150 mm) Breadboard | MB624 (MB1560/M) | 1 |
| Set of 4 Rubber Dampening Feet | RDF1 | 1 |
| Iris Diaphragm | ID12 (ID12/M) | 1 |
| Translating Lens Mount for Ø1" Optics | LM1XY (LM1XY/M) | 1 |
| Flip Mount | FM90 (FM90/M) | 1 |
| Kinematic Mirror Mount | KM100 | 2 |
| Right-Angle Post Clamp | RA90 (RA90/M) | 2 |
| 1.50" (38.1 mm) Tall Post Holder | PH1.5 (PH40/M) | 3 |
| 1.00" (25.4 mm) Tall Post Holder | PH1 (PH30/M) | 1 |
| 3/4" (20 mm) Long Ø1/2" (Ø12.7 mm) Post | TR075 (TR20/M) | 1 |
| 1.5" (30 mm) Long Ø1/2" (Ø12.7 mm) Post | TR1.5 (TR30/M) | 2 |
| 2" (50 mm) Long Ø1/2" (Ø12.7 mm) Post | TR2 (TR50/M) | 1 |
| 4" (100 mm) Long Ø1/2" (Ø12.7 mm) Post | TR4 (TR100/M) | 2 |
| Mounting Base | BA1S | 4 |
| Mounting Screws Includedb | - | - |
BP1M2 Series M2 Beam Analysis Extension Set Shipping List
| Item # | Description | Included Components |
|---|---|---|
| BP1M2-50 | 50 mm Translation Stage with Built-In Controller | Power Supply for Controller RS232 Cable for Controller Mounting Base Plate for Translation Stage Plate for Mounting Beam Profiler on Translation Stage (2 Parts) Screw Set Beam Profiler Software CD ROM Operation Manual |
| BP1M2-150 | 150 mm Translation Stage with Built-In Controller | |
| BP1M2-300 | 300 mm Translation Stage with Built-In Controller |
SOFTWARE
Software Packages for Thorlabs' Beam Profilers:
There are two complete software packages available for download below.
Software
Version 5.0
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.
OR
Advanced Beta Version*
Version 5.0.561.1304 (April 2, 2013)
Full software version software application with latest bug fixes:
- Calculation cluster in the Thorlabs Beam Library Wrapper adopted to the latest calculation result structure.
*This release candidate software version, which incorporates new features and/or bug fixes as outlined in the change log file on the download page, has been through several rounds of testing and there are currently no significant bugs. Once full testing and documentation is available, this version will become the standard software package. In the interim, Thorlabs is making this complete software file available for those customers whose research endeavors would benefit from the updated features.
Complete M² Beam Quality Analysis System
Motorized 150 mm Translation Stage
Flip-mounted Focusing Lens
Iris as Alignment Aid
2 Mounted Mirrors for Beam Adjustments
Mounting Breadboard
The M2SET-BP209VIS(/M) and M2SET-BP209IR(/M) M2 Meters are complete, ready-to-use M² analysis systems that meet the requirements of most general applications. The system is shipped preassembled from the components listed above and pre-aligned; this eases adoption to your laser beams and minimizes adjustment efforts. Thorlabs also offers a CCD beam profiler and extension set for M2 measurements.
Part Number |
Description |
Price |
Availability |
|---|---|---|---|
M2SET-BP209VIS |
NEW! Complete M² Analysis Set w/ BP209-VIS, 400 - 1100 nm, Imperial Components |
$7,500.00 |
Today |
M2SET-BP209IR |
NEW! Complete M² Analysis Set w/ BP209-IR, 900 - 1700 nm, Imperial Components |
$7,900.00 |
Today |
M2SET-BP209VIS/M |
NEW! Complete M² Analysis Set w/ BP209-VIS, 400 - 1100 nm, Metric Components |
$7,500.00 |
Today |
M2SET-BP209IR/M |
NEW! Complete M² Analysis Set w/ BP209-IR, 900 - 1700 nm, Metric Components |
$7,900.00 |
Today |
M² Beam Quality Analysis Extension Set for Scanning Slit Beam Profilers
- 3 Different Translation Path Lengths Available:
- 50 mm: BP1M2-50
- 150 mm: BP1M2-150
- 300 mm: BP1M2-300
The BP1M2 M² Analysis Extension Set allows automated, motorized, computer-controlled M² analysis with our BP209 Beam Profilers (sold separately). The Extension Set comprises the motorized translation stage, plus mounting accessories to mount a BP209 Beam Profiler onto the stage and the stage onto a breadboard. These extension sets are also compatible with older generations of our scanning slit beam profilers, the BP104 and BP109. The set is available for three different travel lengths: 50, 150, and 300 mm. The translation stage is controlled by the M² software module of the BP209 Beam Profilers via RS232. No additional driver is required.
The scanning slit beam profiler and any other necessary components for beam alignment and adjustment (see the Configurations tab) have to be ordered separately. A power supply and serial cable is included with the extension set.
| Item # | BP1M2-50 | BP1M2-150 | BP1M2-300 |
|---|---|---|---|
| Controller Interface | RS232, Convertible to USB | ||
| Translation Range | 50 mm | 150 mm | 300 mm |
| Optical Axis Height | 90 mm | ||
| M² Measurement Range | ≥ 1.0 | ||
| Typical M² and K Accuracy | ± 5%, Depending on Optics and Alignment | ||
| Accepted Beam Diameter at Beam Profiler Aperture for 5% Accuracy | 20 μm - 4.5 mma | ||
| Minimum Detectable Divergence Angle | <0.1 mrad | ||
| Applicable Light Sources | CW and Pulsed Sources ≥ 300 kHz | ||
| Typical Measurement Time | 20 - 40 s, Depending on Beam Shape and Settings | ||
| Size of Translation Stage | 48 mm x 217 mm x 72.5 mm | 48 mm x 317 mm x 72.5 mm | 48 mm x 467 mm x 72.5 mm |
| Stage Size with Mounting Plates, Adapter, and Beam Profiler | 150 mm x 277 mm x 120 mm | 150 mm x 327 mm x 120 mm | 150 mm x 477 mm x 120 mm |
| Load Capacity | < 5 kg | ||
| Stage Weight | 1.2 kg | 1.7 kg | 2.0 kg |
Part Number |
Description |
Price |
Availability |
|---|---|---|---|
BP1M2-50 |
M2 Beam Propagation Analyzer Extension Set for BP209 Beam Profilers, Translation length 50 mm |
$3,120.00 |
Today |
BP1M2-150 |
M2 Beam Propagation Analyzer Extension Set for BP209 Beam Profilers, Translation length 150 mm |
$3,706.80 |
Today |
BP1M2-300 |
M2 Beam Propagation Analyzer Extension Set for BP209 Beam Profilers, Translation length 300 mm |
$5,279.80 |
Today |