CY8275 Ti:Sapphire (Titanium-doped Sapphire Crystal) Circular, AR Coating

Ti:Sapphire (Titanium-doped Sapphire Crystal) Circular, AR Coating Description

Our Ti:Sapphire (Titanium-doped Sapphire) Circular Crystals with precision AR coatings offer superior optical performance and durability. Engineered from a high-purity sapphire host doped with titanium ions, these crystals deliver broad tunability across the near-infrared spectrum, typically from approximately 650 nm to 1100 nm. The AR coating reduces reflection losses and maximizes laser efficiency, ensuring minimal energy loss during high-intensity operation.

These Ti:Sapphire Crystals excel in ultrafast and tunable laser applications, such as spectroscopy, biomedical imaging, and scientific research, where high peak power and precise wavelength control are paramount. Manufactured under strict quality standards, each crystal undergoes rigorous inspection to meet demanding optical tolerances. The result is a reliable solution offering consistent performance, stable operation, and long service life for cutting-edge laser systems.

Ti:Sapphire (Titanium-doped Sapphire Crystal) Circular, AR Coating Applications

Titanium-doped sapphire crystals are widely recognized for their remarkable optical properties and broad tuning ranges in the near-infrared spectrum. When fabricated in a circular form and coated with anti-reflective (AR) layers, these crystals deliver enhanced performance across diverse fields. Their high damage threshold, exceptional thermal conductivity, and tunable emission bandwidth make them critical components in various industrial, research, and commercial applications.

1. Industrial Applications

·         High-Power Laser Cutting: The crystal’s high damage threshold ensures prolonged service life and reliability.

·         Non-Destructive Testing: Broad bandwidth and superior thermal stability facilitate precise material inspections.

·         Micromachining Processes: Tunable wavelengths enhance accuracy in intricate manufacturing tasks.

2. Research Applications

·         Ultrafast Spectroscopy: Broad emission range and AR coating enable high-resolution laser pulses for advanced studies.

·         Particle Acceleration Experiments: High peak intensity and stable output deliver reliable, controlled energy transfer.

·         Quantum Optics Investigations: Exceptional beam quality offers unparalleled precision in quantum state measurements.

3. Commercial Applications

·         Medical Laser Devices: Efficient energy conversion and AR coating reduce reflection losses, enhancing patient safety.

·         Optical Communications: Stable performance at near-infrared wavelengths supports high-speed data transfer systems.

·         Scientific Imaging Equipment: Low insertion loss and broad tunability facilitate superior imaging clarity.

Ti:Sapphire (Titanium-doped Sapphire Crystal) Circular, AR Coating Packaging

Each circular Ti:Sapphire crystal with AR coating is carefully packaged in an anti-static, foam-padded box to prevent mechanical shock and contamination. A moisture-resistant seal guards against humidity, while included desiccant packs maintain dryness. Handle only with gloves in a clean area to avoid surface damage. Custom foam inserts and label options are available upon request. Store in a stable, low-humidity environment for prolonged product integrity.

Packaging: Vacuum sealed, Wooden Box, or Customized.

Ti:Sapphire (Titanium-doped Sapphire Crystal) Circular, AR Coating FAQs

Q1: What are the key material properties of Ti:Sapphire (Titanium-doped Sapphire Crystal) Circular, AR Coating ?

A1: Ti:Sapphire (Titanium-doped Sapphire Crystal) is prized for its broad tunable emission range (approximately 650 nm to 1100 nm) and high optical gain, making it ideal for ultrafast laser applications. With a hardness of 9 on the Mohs scale, it resists scratching, and its excellent thermal conductivity helps manage heat loads effectively. The AR coating enhances transmittance at critical wavelengths, minimizes reflections, and preserves power efficiency, ensuring a stable and efficient output.

Q2: How should this product be handled and stored?

A2: Due to its precision surface quality and delicate AR coating, Ti:Sapphire Circular optics must be handled with clean, lint-free gloves and placed on soft, dust-free surfaces. Avoid contacting the coated area with bare fingers or abrasive materials that could damage the finish. Store these optics in a protective container in a controlled environment with stable temperature and low humidity to prevent contamination, fractures, or coating degradation.

Q3: Which quality standards and certifications apply to Ti:Sapphire (Titanium-doped Sapphire Crystal) Circular, AR Coating ?

A3: High-quality Ti:Sapphire Circular optics with AR coatings typically conform to global standards such as ISO 10110 for optics drawing indications and MIL-PRF-13830B for surface quality. Many manufacturers operate under ISO 9001 to ensure rigorous quality management. These certifications mandate strict tolerances for wavefront distortion, surface flatness, and transmission efficiency. Additionally, reliable suppliers perform thorough in-house metrology and environmental testing to confirm stable performance, durability, and compliance with customer specifications.

Related Information

1. Material Properties and Advantages

The Ti:Sapphire (Titanium-doped Sapphire Crystal) Circular, AR Coating offers exceptional optical clarity and robustness. By incorporating AR (anti-reflection) coatings on both faces of the crystal, reflections at key wavelengths are significantly minimized, leading to better signal accuracy and reduced scattering. This unique combination of titanium doping and precise crystal shaping allows for highly efficient laser output, making it particularly well-suited for demanding applications in ultrafast optics and precision spectroscopy.

Compared to other laser crystals, Ti:Sapphire stands out due to its broad tuning range and superior thermal conductivity. The circular design further enhances the crystal’s mechanical stability and facilitates uniform beam profiles during high-intensity operations. Additionally, the presence of a top-grade AR coating helps maintain optimal beam transmission while protecting the surfaces from environmental damage, ensuring long-term operational reliability and performance.

2. Applications in Advanced Industries

Because of its remarkable wavelength versatility, Ti:Sapphire Circular, AR Coating crystals are widely adopted in aerospace and defense sectors for specialized targeting and secure communication systems. Researchers and engineers consistently rely on the crystal’s precision and minimal reflective losses to develop advanced remote sensing devices that require exceptional stability over extended periods. In these fields, Ti:Sapphire’s resilience and optical fidelity often translate into more accurate measurements and superior data integrity.

Moreover, this crystal configuration has taken on a crucial role in medical diagnostics and pharmaceutical research. Whether it is used for high-resolution imaging in confocal microscopy or efficient femtosecond pulse generation for surgical procedures, Ti:Sapphire’s anti-reflection features reduce unwanted dispersion while maximizing energy throughput. This level of reliability and precision positions Ti:Sapphire Circular, AR Coating at the forefront of next-generation devices, offering unparalleled performance potential in cutting-edge laboratory and clinical applications.