Benchtop Correlated Photon Pair Sources: Sapphire
Description
The OZ Optics correlated photon pair source produces time/energy entangled photon pairs through spontaneous parametric down conversion (SPDC). It features a stabilized pump laser, temperature-stabilized phase matching, and pump power control via an internal variable optical attenuator.
The remaining photon pairs are split into single photons and sent to separate signal/idler outputs. This benchtop source is housed in a rugged aluminum casing and allows for customized wavelength selection.
Benchtop Correlated Photon Pair Sources: Sapphire
Specifications |
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|---|---|
| Operating Wavelength: | 810/1550 nm |
| Wavelength Stability: | -----nm |
| Pump Laser Power: | -----mW |
| Signal/Idler Degeneracy Wavelength Accuracy: | ±2 nm |
| Biphoton Bandwidth (3 DB): | Phase matching dependent nm |
| Pair-generation Rate: | 4x10^6-1x10^5 Pairs/second |
| Coincidence-to-accidental Ratio: | 1000-100 |
| Width X Depth X Height: | 35x16.5x12.5 cm |
| Weight: | 6 kg |
| Voltage: | 5-12 V |
| Current: | 6-8 A |
| Core/Cladding Sizes (a/b): | 5/125 for 810 nm Singlemode or PM |
| Operating Temperature: | 15-25 °C |
Features
- Customized wavelength selection
- Separated signal/idler output
- Rugged aluminum housing
Applications
- Fundamental quantum information science
- Quantum key distribution
- Quantum computing
- Quantum metrology
For pricing, technical or any other questions please contact the supplier
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- No markups, no fees
- Direct contact with supplier
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How to order?
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Ships from:
Canada
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Sold by:
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On FindLight:
since 2015
Frequently Asked Questions
The OZ Optics correlated photon pair source produces time/energy entangled photon pairs through spontaneous parametric down conversion (SPDC).
The benchtop correlated photon pair source features customized wavelength selection, separated signal/idler output, and a rugged aluminum housing.
The applications of the benchtop correlated photon pair source include fundamental quantum information science, quantum key distribution, quantum computing, and quantum metrology.
The performance specifications include signal/idler degeneracy wavelength, biphoton bandwidth, pair-generation rate, coincidence-to-accidental ratio, physical dimensions, weight, and power requirements.
The operating and storage conditions include operating temperature, operating relative humidity, storage temperature, and storage relative humidity.