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CVD Diamond Optics Extreme Durability

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January 05, 2026
Category Connection: CVD Lab Grown Diamonds
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Tags:
#Single Crystal Diamond Wafer #CVD Diamond Substrates #CVD Lab Created Diamonds
Brief: Learn how this CVD Single Crystal Diamond Optics Prism can streamline typical workflows and improve reliability. This video showcases the prism's exceptional broadband transmission and extreme durability, demonstrating its performance across various optical applications from laser systems to medical technology.
Related Product Features:
  • Exhibits exceptional optical and physical characteristics with superior light transmission and a premium crystalline structure.
  • Enables a 50% size reduction compared to conventional optical components for more compact designs.
  • Operates across a wide temperature range from -200°C to 850°C for extreme environment applications.
  • Provides enhanced signal quality with a 40 dB improved SNR over sapphire options.
  • Features minimal IR scatter for efficient broadband wavelength transmission.
  • Offers chemical inertness and extreme hardness for hazard resistance and strength in demanding applications.
  • Supports lightweight, compact geometries ideal for large-area, high-power optical systems.
  • Delivers high thermal conductivity between 1900-2200 W/(m*K) at 300 K for effective heat management.
FAQs:
  • What are the primary applications for CVD Single Crystal Diamond Optics Prisms?
    These prisms are used in laser systems (output windows, resonators, mirrors), sensing & imaging (photodetectors, spectrometers, cameras), precision instruments (beam splitters, gratings), medical technology (laser devices, endoscopes), communication systems (demodulators, fiber optic couplers), industrial equipment (Raman spectrometers), and astronomy observation instruments.
  • How does the CVD diamond prism compare to sapphire in terms of performance?
    The CVD diamond prism provides a 40 dB improved Signal-to-Noise Ratio (SNR) over sapphire options, along with superior broadband transmission, extreme durability, and operational capability across a wider temperature range from -200°C to 850°C.
  • What makes CVD diamond suitable for high-power optical applications?
    CVD diamond's chemical inertness, extreme hardness, high thermal conductivity (1900-2200 W/(m*K)), and ability to maintain dimensional stability under high temperatures make it ideal for large-area, high-power applications requiring hazard resistance and strength.
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