Showing all 8 results

  • Kingwim Optics Achromatic WaveplatesKingwim Optics Achromatic Waveplates

    Achromatic Waveplates

    Broad Wavelength Band Compatibility: The achromatic waveplate exhibits a virtually flat response of phase delay over a broad wavelength band, typically spanning hundreds of nanometers.

    Chromatic Dispersion Mitigation: By utilizing two birefringent materials with complementary properties, the achromatic waveplate effectively attenuates chromatic dispersion effects.

    Versatile Phase Retardation Values: Available in lambda/2 and lambda/4 retardation, offering flexibility for various polarization transformations.

    Applications: Tunable Laser Sources, Femtosecond Laser Systems, Spectroscopy, Broadband Light Sources, etc.

    Read moreDone
  • Kingwim Optics Air Spaced Zero Order WaveplatesKingwim Optics Air Spaced Zero Order Waveplates

    Air Spaced Zero Order Waveplates

    Minimal Wavelength Sensitivity: The zero-order design offsets unfavorable retardation shifts occurring along with input wavelength fluctuations, making it far less sensitive to changes in wavelength compared to multi-order waveplates.

    Temperature Stability: The design also minimizes sensitivity to temperature changes, ensuring stable performance in various environmental conditions.

    High Damage Threshold: The air-spaced modules feature exceptionally high damage thresholds, making them suitable for high-power laser systems.

    Versatile Applications: Available in half, quarter, and octadic waveplate versions, our Zero Order Waveplates cater to a wide range of optical applications.

    Broad Operational Wavelength Range: With operational wavelengths ranging from 200nm to 2000nm for Quartz and 190nm to 7000nm for MgF2, our waveplates are suitable for various optical systems.

    Customizable Options: Both off-the-shelf and custom versions are available, with standard specifications and customizable options to meet specific application requirements.

    Applications: Polarization Control, Circular Polarization, Nonlinear Optical Systems, Optical Sensors and Phase Shifters, High-Power Laser Systems, etc.

    Read moreDone
  • Kingwim Optics Dual Wavelength WaveplatesKingwim Optics Dual Wavelength Waveplates

    Dual Wavelength Waveplates

    Dual Wavelength Capability: Provides different retardations at two individual wavelengths, allowing for precise control over the polarization state of dual-wavelength light sources.

    High Damage Thresholds: The waveplates are designed with high damage thresholds, making them suitable for use in high-power applications.

    Low-Order Retardation: Introduces low-order retardation, which is suitable for many applications. However, if zero-order dual/triple wavelength waveplates are required, Kingwin Optics can arrange for their production.

    Cost-Effective and Fast Delivery: Kingwin Optics offers two standard modules of Dual Wavelength Waveplates with guaranteed fast delivery and cost-effective prices.

    Custom Retardation Options: Besides the standard modules, Kingwin Optics also offers custom retardation options at both dual-wavelength and triple-wavelength scales. Technical support is available to check and confirm critical parameters with customers.

    Applications: Separating Coaxial Laser Beams, Solid State SHG Lasers, Optical Communications, Research and Development, etc.

    Read moreDone
  • Kingwim Optics Low Order WaveplatesKingwim Optics Low Order Waveplates

    Low Order Waveplates

    Low Order Design:

    Offers improved optical characteristics over common multiple-order waveplates.

    Generates the desired phase delay with a surplus of several full wavelength phase shifts.

    Thinner and less dependent on wavelength, ambient temperature, and the angle of incidence.

    Pricing:

    Low Order Waveplates are more affordable than zero-order waveplates.

    Suitable for large-scale and low-cost production requirements.

    Versatile Options:

    Available in Low Order Half Waveplates for rotation of the polarization plane.

    Available in Low Order Quarter Waveplates for conversion between linear polarization and circular polarization.

    Wide Spectral Range:

    Quartz Low Order Waveplates can be used for UV to NWIR spectral ranges.

    MgF2 Waveplates can be used for wavelengths up to the MWIR (maximum 7000nm) region.

    High Damage Threshold:

    Robust single waveplate structure with a high damage threshold greater than 500MW/cm^2.

    Enhanced Surface Coatings:

    Surfaces are coated with AR coatings for improved performance.

    Configured with Black Anodized mountings for easy integration.

    Applications: Optics and Photonics Research, Laser Systems, Optical Instrumentation, Telecommunications, etc.

    Read moreDone
  • Kingwim Optics NOA61 Cemented Zero Order WaveplatesKingwim Optics NOA61 Cemented Zero Order Waveplates

    NOA61 Cemented Zero Order Waveplates

    High accuracy: Due to the zero-level design, these waveplates are able to produce the expected phase delay precisely, avoiding the additional wavelength shifts that can occur with multi-stage waveplates.

    High stability: Since the harmful phase delay generated by the first waveplate is compensated by the second waveplate, the zero-order waveplate is insensitive to changes in temperature and wavelength, and has higher stability.

    High-Performance Adhesives: Glue with NOA61 adhesive, which offers excellent bond strength, high heat resistance, and excellent clarity to meet the needs of optical applications under a wide range of operating conditions.

    Wide range of applications: suitable for a variety of optical systems, including nonlinear optical systems, optical time multiplexing systems, optical sensors, special interferometers, synchronous phase displacement phase shifters, etc.

    Applications: Optical communication, Laser technology, Optical measurements, Scientific research, etc.

    Read moreDone
  • Kingwim Optics Optically Contacted Zero Order WaveplatesKingwim Optics Optically Contacted Zero Order Waveplates

    Optically Contacted Zero Order Waveplates

    Precise Target Delays: Zero-order waveplates produce exact delays, unlike multi-order waveplates that generate fractional delays and small amounts of full-wavelength delay.

    Temperature and Wavelength Stability: The two-waveplate structure effectively counteracts unfavorable sensitivity to delay, resulting in reduced sensitivity to temperature and wavelength changes compared to multi-order waveplates.

    High Geometric Accuracy and Surface Quality: The optically contacting surface of the zero-order waveplate is polished with high precision, achieving parallelism of less than 1 arc second and exceptional surface smoothness and cleanliness.

    Adhesive-Free Design: The waveplates are held together by intermolecular forces, eliminating the risk of blurring due to melting glue at high temperatures and maintaining physical and optical quality.

    Cost-Effective: Despite rigorous manufacturing procedures, Kingwin Optics offers these high-precision waveplates at a competitive price.

    Applications: Polarization Control, Circular Polarization Conversion, Nonlinear Optical Systems, etc.

    Read moreDone
  • Kingwim Optics Super Achromatic WaveplatesKingwim Optics Super Achromatic Waveplates

    Super Achromatic Waveplates

    Extremely wide wavelength range:

    Super Achromatic Waveplates are capable of providing virtually complete wavelength-independent phase delay over a very wide wavelength range. This is one of its most significant advantages.

    High Phase Delay Stability:

    Thanks to the use of a variety of birefringent materials such as quartz, magnesium fluoride, and sapphire, and through precise optical design, superachromatic waveplates are able to provide a flat and stable phase delay over a wide spectral range.

    High transmittance:

    These waveplates are typically coated with a broadband coating to increase the transmittance of the laser or other light source and reduce energy loss.

    Low Dispersion:

    By eliminating dispersion, superachromatic waveplates are able to provide consistent polarization conversion over a wide wavelength band, which is especially important for applications that require high-precision polarization control.

    High-precision machining:

    The manufacturing process of superachromatic waveplates often requires high-precision machining and assembly techniques to ensure that the performance of the waveplates meets the design requirements.

    Applications: Laser system, Spectral analysis, Optical Communication, Optical Instruments, Scientific research, etc.

    Read moreDone
  • Kingwim Optics True Zero Order WaveplatesKingwim Optics True Zero Order Waveplates

    True Zero Order Waveplates

    Superior broadband performance.

    Extremely miniature thickness for precise retardation.

    Excellent retardation consistency with changes in wavelength, ambient temperature, and incident angle.

    Applications: Optical communication systems, Quantum computing and cryptography, Laser systems and high-energy applications,  Polarization-sensitive imaging and detection, Biomedical imaging and diagnostics, etc.

    Read moreDone