810nm, 1/4λ, dia10mm, Zero Order Waveplate（QWPZ810）

810nm \Zero Order \1/4λ / Unmounted / dia10mm

$190.00

810nm, 1/4λ, dia10mm, Zero Order Waveplate（QWPZ810）

SO4010325

Wavelength \ Order \ Retardance

810nm \Zero Order \1/4λ

Mounting Unmounted Mounted

Dimension

dia10mm

In stock

$190.00

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This 810 nm quarter-wave plate is designed to introduce quarter-wave retardance at an 810 nm design wavelength, typically used to convert linear polarization to circular polarization or vice versa.

It is suitable for laser diode systems, LiDAR, and NIR sensing applications using 810 nm illumination or signal detection. It helps control the polarization state and support polarization-sensitive measurement or beam control. The zero-order construction provides enhanced stability against temperature variations and wavelength shifts compared to multi-order alternatives, ensuring precise performance in sensitive near-infrared setups.

Key specifications:

Wavelength / main spec: 810 nm design wavelength
Retardance / type: 1/4λ (quarter-wave) retardance; Zero Order
Transmission / blocking: See specification table for coating and transmission details
Format / custom option: 10 mm diameter; custom sizes and mounting options available on request

Specifications for product 810nm, 1/4λ, dia10mm, Zero Order Waveplate（QWPZ810）
Specifications
Design Wavelength	810nm
Retardance	1/4λ
Part Number	SO4010325

Similar 1/4λ Waveplate @ 810nm

Product Faqs

Half-wave plate:

Rotates linear polarization
Common in laser power control with a polarizer
Used to adjust polarization direction

Quarter-wave plate:

Converts linear polarization to circular or elliptical polarization
Can also convert circular polarization back to linear
Used in polarization control, imaging, interferometry, and laser systems

Yes. Waveplates are wavelength-specific because retardance depends on wavelength.

Zero-order:

Better retardance stability
Less sensitive to wavelength shift, temperature, and angle
Preferred for precision laser and measurement systems

Multiple-order:

Usually lower cost
More sensitive to wavelength, temperature, and angle
Suitable for less demanding setups

example:

Zero-order: λ/2 = 180°
Multi-order: 10λ + λ/2 = 3780°

Same effect, more phase cycles

A cemented waveplate uses adhesive or epoxy to bond two optical plates into one assembly. This makes the component easier to handle and keeps the two plates fixed relative to each other.

Cemented construction is common in many compact waveplate assemblies, but it may not be ideal for high-power laser systems because the adhesive layer can become a limiting factor. For high-power use, optically contacted or air-spaced designs are often considered instead.

An achromatic waveplate is usually made from two or more birefringent plates, often using different materials.

The purpose is to keep the retardance more stable over a wider wavelength range.

A zero-order waveplate is designed so the final retardance is only the required phase delay, such as λ/2 or λ/4, without relying on extra full-wave retardance orders.

Zero-order waveplates are commonly made by combining two birefringent plates with crossed optical axes. The final retardance is the difference between the two plates.

The two plates can be assembled in different ways:

Cemented zero-order waveplate: two plates bonded with optical adhesive; compact and mechanically stable, but less suitable for high-power laser use.
Optically contacted zero-order waveplate: two plates joined without adhesive; better when adhesive should be avoided.
Air-spaced zero-order waveplate: two plates separated by a small air gap; often preferred for higher-power laser systems.

A true zero-order waveplate provides the required λ/2 or λ/4 retardance using a single very thin birefringent plate.

Because it does not rely on extra full-wave retardance orders, it offers very stable retardance performance. However, crystalline true zero-order plates are usually thin and fragile, so they require careful handling or protective mounting.

A zero-order waveplate is usually a two-plate construction. A true zero-order waveplate is a single-plate construction.

Practical difference:

True zero-order waveplates can offer very stable retardance, but they are thinner and more fragile. Compound zero-order waveplates are usually stronger and easier to handle.

An air-gap waveplate is a two-plate waveplate where the plates are held together mechanically, with a small air space between them.

Because there is no cement layer between the optical plates, air-gap waveplates are often preferred for higher-power laser systems or applications where adhesive should be avoided.

An optically contacted waveplate is a two-plate waveplate where the plates are joined by direct optical contact, without adhesive.

The surfaces are polished very flat and clean, allowing the plates to bond through surface contact. This avoids cement in the optical path and gives a compact, stable assembly.

Usually, no. A finished waveplate should normally be used in its original size and mount.

Many waveplates are made from thin or compounded optical plates. Resizing after manufacturing can damage the plate, disturb the alignment, or affect optical performance.

If the waveplate is smaller than your existing optical system, it is usually better to use a mechanical adapter. For example, an SM05-mounted waveplate can be adapted into an SM1 system with an SM05-to-SM1 adapter.

Can’t Find the Waveplate You Need?

Share your required wavelength, waveplate type, and preferred size. We can help check the closest stocked option, including achromatic waveplates that cover your wavelength, and confirm current size availability.