Page 2 - Waveplates

Ealing Multiple Order Waveplates are available in a range of laser-line wavelenths, mounted in a 25.4 mm diameter mount. Multiple Order Waveplates are sensitive to changes in temperature, angle of incidence, and degree of collimation. They are intended for use at the design wavelength only. If used at a different wavelength, a ...

Specifications

Waveplate Type: Multiple Order
Material: Quartz
Mounting: Mounted
Shape: Round
Size: 25.4 mm
Ealing Multiple Order Waveplates are available in a range of laser-line wavelenths, mounted in a 25.4 mm diameter mount. Multiple Order Waveplates are sensitive to changes in temperature, angle of incidence, and degree of collimation. They are intended for use at the design wavelength only. If used at a different wavelength, a ...

Specifications

Waveplate Type: Multiple Order
Material: Quartz
Mounting: Mounted
Shape: Round
Size: 25.4 mm
Ealing Zero Order Waveplates are the preferred type of waveplate. They are not as sensitive to changes in temperature, wavelength, angle of incidence, or collimation. A wavelength shift of 15 nm will result in approximately a 1% retardation change. They are supplied in a 25.4 nm mount. Applications for Half Waveplates include ...

Specifications

Waveplate Type: Zero Order
Material: Quartz
Mounting: Mounted
Shape: Round
Size: 25.4 mm
A Quarter Waveplate is used to convert linearly polarized beams into circularly polarized beams (and vice versa). The construction of a Quarter Waveplate is such that the fast axis, indicated by the marked line, lies in the surface at 45° to the input polarization. The input beam is resolved into two components of equal ...

Specifications

Waveplate Type: Zero Order
Material: Quartz
Mounting: Mounted
Shape: Round
Size: 25.4 mm
A Quarter Waveplate is used to convert linearly polarized beams into circularly polarized beams (and vice versa). The construction of a Quarter Waveplate is such that the fast axis, indicated by the marked line, lies in the surface at 45° to the input polarization. The input beam is resolved into two components of equal ...

Specifications

Waveplate Type: Zero Order
Material: Quartz
Mounting: Mounted
Shape: Round
Size: 25.4 mm
A waveplate or retarder is an optical device that alters the polarization state of a light wave travelling through it. Two common types of waveplates are the half wave plate and the quater wave waveplate. Waveplates are constructed out of a birefringent material, such as quartz, for which the index of refraction is different for ...

Specifications

Waveplate Type: Zero Order
Material: Quartz
Mounting: Mounted
Shape: Custom
Size: 12.7 mm
A waveplate or retarder is an optical device that alters the polarization state of a light wave travelling through it. Two common types of waveplates are the half wave plate and the quater wave waveplate. Waveplates are constructed out of a birefringent material, such as quartz, for which the index of refraction is different for ...

Specifications

Waveplate Type: Multiple Order
Material: Quartz
Mounting: Mounted
Shape: Custom
Size: 12.7 mm
A Quarter Waveplate is used to convert linearly polarized beams into circularly polarized beams (and vice versa). The construction of a Quarter Waveplate is such that the fast axis, indicated by the marked line, lies in the surface at 45° to the input polarization. The input beam is resolved into two components of equal ...

Specifications

Waveplate Type: Zero Order
Material: Quartz
Mounting: Mounted
Shape: Round
Size: 25.4 mm
Middle Infrared zero order waveplate is constructed by two Magnesium Fluoride (MgF2) plates with their fast axis crossed, the two plates are constructed by optically contacted method, the optical path is epoxy free. The difference in thickness between the two plates determines the retardance. Middle Infrared zero order waveplates is ...

Specifications

Waveplate Type: Zero Order
Material: MgF2
Mounting: Mounted, Unmounted
Shape: Round, Square, Rectangle, Custom
Size: 25.4 mm
Compared with cemented true zero order waveplate, telecom waveplate is only one quartz plate, it is mainly used in fiber communication. Telecom waveplates are thin & compact waveplates specifically designed to meet the demanding requirements of fiber communication component. The half-wave plate can be used for rotating the ...

Specifications

Waveplate Type: Zero Order
Material: Quartz
Mounting: Mounted, Unmounted
Shape: Round, Square, Rectangle, Custom
Size: 25.4 mm
This waveplate is a special kind of multi order waveplate. Dual wavelength waveplate is designed to be used in dual wavelength setups, for example, it can be operated as a quarter waveplate @1064nm and as a half waveplate @532nm at the same time. It\'s always used to manage the states of polarization of laser beams to obtain maximum ...

Specifications

Waveplate Type: Multiple Order
Material: Quartz
Mounting: Mounted, Unmounted
Shape: Round, Square, Rectangle, Custom
Size: 25.4 mm
Multiple order waveplate means the retardance of a light path will undergo a certain number of full wavelength shifts in addition to the fractional design retardance. The thickness of multi order waveplate is always around 0.5mm. Compared with zero order waveplate, multi order waveplate is more sensitive to wavelength and temperature ...

Specifications

Waveplate Type: Multiple Order
Material: Quartz
Mounting: Mounted, Unmounted
Shape: Round, Square, Rectangle, Custom
Size: 25.4 mm
The thickness of a true zero order quartz plate is very thin, it is very easily damaged. In order to solve this problem, we can cement the thin quartz plate on a BK7 substrate to increase the strength. Standard Thickness: 1.1±0.2mmEpoxy CementedModerate Damage ThresholdBetter Temperature BandwidthWide Wavelength BandwidthGood ...

Specifications

Waveplate Type: Zero Order
Material: Quartz
Mounting: Mounted, Unmounted
Shape: Round, Square, Rectangle, Custom
Size: 25.4 mm
Air spaced zero order waveplate is constructed by two quartz plates installed in a mount, to form a air gap between the two quartz plates. The difference in thickness between the two plates determines the retardance. Zero order waveplates offer a substantially lower dependence on temperature and wavelength change than multi-order ...

Specifications

Waveplate Type: Zero Order
Material: Quartz
Mounting: Mounted, Unmounted
Shape: Round, Square, Rectangle, Custom
Size: 25.4 mm
Optically Contacted zero order waveplate is constructed by two quartz plates with their fast axis crossed, the two plates are constructed by optically contacted method, the optical path is epoxy free. The difference in thickness between the two plates determines the retardance. Zero order waveplates offer a substantially lower ...

Specifications

Waveplate Type: Zero Order
Material: Quartz
Mounting: Mounted, Unmounted
Shape: Round, Square, Rectangle, Custom
Size: 25.4 mm
Cemented zero order waveplate is constructed by two quartz plates with their fast axis crossed, the two plates are cemented by UV epoxy. The difference in thickness between the two plates determines the retardance. Zero order waveplates offer a substantially lower dependence on temperature and wavelength change than multi-order ...

Specifications

Waveplate Type: Zero Order
Material: Quartz
Mounting: Mounted, Unmounted
Shape: Round, Square, Rectangle, Custom
Size: 25.4 mm
Material: Quartz Single CrystalUsable wavelength range: 193nm – 2000nmRetardation: λ/4 λ/2 (λ/8 and other values)Retardation Tolerance: λ/200 - λ/500 at specific wavelengthDimensions: 2 mm - 50 mmParallelism: <1 arcsecSurface Quality: 10-5 scratch-digTypical Absorption: ...

Specifications

Waveplate Type: Zero Order
Material: Quartz
Mounting: Mounted, Unmounted
Shape: Round, Custom
Size: 20 mm
Quartz Waveplates / Retarders – Multiple OrderMaterial: Quartz SingleCrystalUsable wavelength range: 193nm – 2000nmRetardation: λ/4 λ/2 (λ/8 and other values)Retardation Tolerance: λ/200 λ/500 at specific wavelengthDimensions: 2mm - 50mmParallelism: <1 arcsecSurface Quality: 10-5 ...

Specifications

Waveplate Type: Multiple Order
Material: Quartz
Mounting: Mounted, Unmounted
Shape: Round, Custom
Size: 20 mm
Uncemented bare mica waveplates are recommended for higher powerapplications. Application areas are imaging systems, metrology, materialprocessing, medical technology, lasers, detection schemes, research &development and special lighting technologies.Mica waveplates are available at any specified wavelength from 350 to ...

Specifications

Waveplate Type: Zero Order
Material: Mica
Mounting: Mounted, Unmounted
Shape: Round, Custom
Size: 20 mm
Mica waveplates (retarders) are recommended for low power applications. Application areas are imaging systems, stress analyzers, helium neon lasers, detection schemes, research & development and special lighting technologies. Mica waveplates (retarders) are AR coatedor uncoated available at any ...

Specifications

Waveplate Type: Zero Order
Material: Mica, N-BK7
Mounting: Mounted, Unmounted
Shape: Round, Custom
Size: 20 mm