Our 3 mm thick Ultrafast Laser Beam Sampler is designed to minimize pulse dispersion while splitting off, or sampling, a beam by Fresnel Reflection for beam monitoring applications. The N-BK7 substrate is uncoated on the front surface to achieve beam division by Fresnel Reflection. The back surface is antireflection coated to prevent ghosting. A slight wedge in the substrate virtually eliminates internal fringes.
Additional CAD file downloads are not available for this product.
ultrashort-pulse-beam-samplers - Drawings
Additional drawings are not available for this product.
Specifications
Wavelength Range
660-1000 nm
Orientation
Beam should enter surface marked with an arrow
Diameter
25.4 mm
Antireflection Coating
NC.2
Material
Grade A N-BK7
Surface Quality
15-5 scratch-dig
Angle of Incidence
45 °
Substrate Number
10B20
Surface Flatness
≤λ/10 at 632.8 nm over the clear aperture
Durability
MIL-C-675C, moderate abrasion million cycles
Chamfers
0.25-0.76 mm face width
Chamfers Angle Tolerance
45° ±15°
Damage Threshold
500 W/cm2 CW, 0.5 J/cm2 with 10 nsec pulses, typical
Diameter Tolerance
+0/-0.13 mm
Wedge
30 ±15 arc min
Thickness
3.0 mm
Thickness Tolerance
±0.38 mm
Features
Sample Ultrashort Pulses
In a beam sampler, percentage of reflected light is determined by the Fresnel reflection from a single surface. At the nominal 45° AOI the beam sampler reflects approximately 10% and 1% for s- and p- polarizations, respectively. For measuring beam power, the beam sampler should be oriented such that the laser is p-polarized. This choice will maximize transmitted power and attenuate power incident on the detector. Depending on the polarization of the incident beam, front surface reflectance from 1-10% can be attained at 45° incidence.
N-BK7 Substrates for VIS and NIR Applications
N-BK7 is an excellent lens material for most visible and near infrared applications. It is the most common borosilicate crown optical glass, and it provides great performance at a good value. Its high homogeneity, low bubble and inclusion content, and straightforward manufacturability make it a good choice for transmissive optics.
Slight Wedge Suppresses Unwanted Fringes
Optics with perfectly parallel faces are unsuited for use as reference elements in laser setups as reflections from both surfaces would be collinear resulting in undesired large period fringes. The introduction of a slight wedge causes unwanted reflections from the second surface to be deflected from the optical path. The back surface (S2) of this beam sampler is slightly wedged. The laser beam should enter the non-wedged surface (S1) where an arrow on the side points to.
AR Coated Back Surface
An antireflection coating NC.2 is applied on the back surface to minimize surface reflection losses and eliminate ghost images. It covers 660-1000 nm spectral range and features a high damage threshold of 500 W/cm2 for CW, 1.0 J/cm2 for 10 nsec pulses, typical.
Accessories
Compatible
Compare
Description
Compatibility
Drawings, CAD & Specs
Avail.
Price
LH-1TThin Lens Mount, Fixed, 25.4 mm Diameter, 8-32 Thread., A-LINE
IMPERIAL
In Stock
$21.00
M-LH-1TThin Lens Mount, Fixed, 25.4 mm Diameter, M4, A-LINE
In order to provide better service and products, please provide the following brief information.
Password Reset
Enter your email address below to reset your account password.
Password Reset
Email Verification Required
Cart Items Updated
Remove Product
Remove this product from your comparison list?
Check Order Status
Provide an order number and postal code to check the status of an order or download an invoice for an order that has shipped. Login to view your complete order history.
Sign In Required
To access this and other valuable technical resources, please sign in or register for a new online account.
Over 8,000 products in-stock! & FREE 2-Day shipping on all web orders!* Learn More FREE T-Shirt with orders $250+ Details
Ultra-High Velocity 