Beamsplitters - Andover Corporation

Beamsplitters and Prisms

High-Accuracy Splitting Across UV, VIS, and IR

Laser beamsplitter with coated optical surface, shown in a close-up studio shot.

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Optical beamsplitters are precision components that split incident light into separate paths or combine multiple beams into a single optical path. Andover Corporation supplies high-precision beamsplitters engineered for demanding optical systems used in aerospace, defense, biomedical imaging, and scientific instrumentation.

Key features

Custom reflection / transmission (R/T) ratios to match system requirements
Broad wavelength coverage for UV, visible, and IR designs
Polarizing and non-polarizing options
Cube and plate configurations for flexible integration
Durability and environmental stability for challenging operating conditions
Precision thin-film coatings to support consistent optical performance

Common beamsplitter applications

Andover beamsplitters are used in optical assemblies and systems where reliable beam control, wavelength separation, and signal management are required, including:

Aerospace systems:
Supports navigation, stabilization, and imaging payloads in airborne and spaceborne platforms.
Defense and targeting systems:
Enables optical paths for laser designation, rangefinding, and surveillance workflows.
Astronomical instruments:
Helps manage light paths for spectrometry, imaging, and precise wavelength separation in observatory systems.
Biomedical imaging:
Used in fluorescence microscopy, endoscopy, and diagnostic instruments that require dependable spectral separation.

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Types of Beamsplitters

Beamsplitters are classified by function into non-polarizing, polarizing, and wavelength-selective types. Each type is engineered to split light based on intensity, polarization state, or spectral properties, depending on the application.

Standard

Designed to split unpolarized light at specific R/T ratios, these beamsplitters are ideal for general-purpose applications.

Polarizing

These separate light into S and P polarization states, making them suitable for applications requiring polarization control.

Non-Polarizing

Engineered to maintain the polarization state of light while splitting it, these are used in systems where preserving polarization is critical.

Dichroic

Utilize wavelength-specific coatings to split light by wavelength, commonly used in fluorescence and multi-spectral imaging.

Beamsplitter Configurations

Cube and plate beamsplitters are the two primary types, each designed to divide light by reflection and transmission. Cube beamsplitters offer compact integration and minimal beam shift, while plate beamsplitters are lightweight, cost-effective, and easier to manufacture in larger sizes.

Cube

Constructed by cementing two right-angle prisms together with a partially reflective coating on the hypotenuse of one prism.

No beam shift
Equal optical path lengths for transmitted and reflected beams
Compact and robust design

Plate

Flat glass substrates with a partially reflective coating, optimized for a 45° angle of incidence.

Lightweight and easy to integrate
Suitable for applications where beam displacement is acceptable

Explore our Beamsplitter Product Line or Request a Quote for custom solutions tailored to your specific needs.

Frequently Asked Questions

What is the difference between polarizing and non-polarizing beamsplitters?

Can I get a beamsplitter with a custom R/T ratio?

What is the typical wavelength range for your beamsplitters?

How do I choose between a cube and a plate beamsplitter?

Do you offer beamsplitters for high-power laser applications?

Custom Solutions & Prototyping

Request a Quote

Markets

LiDAR Optical Filters for Remote Sensing and Mapping

Semiconductor & Advanced Manufacturing

Machine Vision & Industrial Automation

A soldier in full tactical gear crouches on rocky terrain at dusk, aiming a weapon equipped with a laser rangefinder. The bright laser beam projects forward, likely measuring distance to a target. In the background, an armored military vehicle with mounted weaponry and headlights is stationed on rugged terrain. The dramatic sunset sky enhances the intensity of the scene, highlighting the advanced optics and targeting systems used in modern defense technology.

Military & Defense Systems

Biomedical & Life Sciences

Aerospace & Space Optics | Andover

Astronomy & Space

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Andover Insights & Innovations

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