Diamond's ultra-wide forbidden bandwidth allows the emission of luminescence from deep energy level defects in the forbidden band without absorption, resulting in a series of defect-induced colour centre,such as nitrogen vacancy (NV) or silicon vacancy (SiV) centres, which have discrete energy levels similar to those of "single atoms". The very high stability of NV colour centres at ordinary temperature, together with the excellent noise and interference immunity of diamond, makes diamond very suitable for particularly precise quantum information processing, quantum communication and quantum computing.
| Properties | |
| Nitrogen Content | <20 ppb |
| Thermal Conductivity | >2000 W/mK |
| Process Standard | |
| Crystallographic Orientation | 100 110 111 |
| Miscut for Main Face Orientation | ±3° |
| Common Product Size | Within 10mm×10mm×2mm |
| Transverse Tolerance | ±0.05mm |
| Thickness Tolerance | ±0.1mm |
| Surface Roughness | <10nm |
| Edge Cutting | Laser Cutting |
White and fancy color lab-grown diamonds in various sizes and shapes;
Offered as certified/uncertified stones, matched pairs, and calibrated parcels.
As a leading CVD lab-grown diamond producer, Crysdiam is providing high-quality products used in jewelry industry and various high-tech fields.
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