Nanophotonics with Diamond and Silicon Carbide for Quantum Technologies: Nanophotonics
Editat de Mario Agio, Stefania Castellettoen Limba Engleză Paperback – 30 mai 2025
- Discusses experimental and computational methods needed to approach the fabrication and design of photonics components in diamond and silicon carbide
- Describes characterization techniques to test photonics properties and the monolithic integration of atomic point defects within materials’ nano- or micro-photonics cavity
- Features the methodologies for the fabrication of photonics components, their integration towards wafer scale integrated photonics circuits, and nanophotonic with quantum functionalities
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Specificații
ISBN-13: 9780443137174
ISBN-10: 044313717X
Pagini: 438
Dimensiuni: 216 x 276 mm
Greutate: 1.18 kg
Editura: ELSEVIER SCIENCE
Seria Nanophotonics
ISBN-10: 044313717X
Pagini: 438
Dimensiuni: 216 x 276 mm
Greutate: 1.18 kg
Editura: ELSEVIER SCIENCE
Seria Nanophotonics
Cuprins
1. Introduction
2. Diamond growth and properties for quantum technologies
3. Micro- and nano-fabrication techniques for single crystal diamond photonics
4. Quantum micro–nano devices fabricated in diamond by femtosecond laser and ion irradiation
5. Ab-initio simulations of color centers in diamond
6. Color centers in diamond for quantum photonics
7. Diamond spin-photon interface
8. Diamond integrated quantum photonics
9. Diamond color centers for enhanced quantum sensing
10. Fluorescent Nanodiamonds
11. Diamond single photon source for metrology: focus on radiometry and imaging
12. Diamond laser threshold magnetometer
13. Silicon carbide growth and properties for quantum technologies
14. Color centers in silicon carbide
15. Defect engineering and charge-state control of color centers in silicon carbide
16. Silicon carbide spin-photon interface
17. Silicon carbide photonics technologies and fabrication methods
18. Quantum nonlinear photonics in silicon carbide
19. Electrically driven quantum emitters in diamond and silicon carbide
20. Spin defects in silicon carbide for maser applications
21. Conclusions and Outlook
2. Diamond growth and properties for quantum technologies
3. Micro- and nano-fabrication techniques for single crystal diamond photonics
4. Quantum micro–nano devices fabricated in diamond by femtosecond laser and ion irradiation
5. Ab-initio simulations of color centers in diamond
6. Color centers in diamond for quantum photonics
7. Diamond spin-photon interface
8. Diamond integrated quantum photonics
9. Diamond color centers for enhanced quantum sensing
10. Fluorescent Nanodiamonds
11. Diamond single photon source for metrology: focus on radiometry and imaging
12. Diamond laser threshold magnetometer
13. Silicon carbide growth and properties for quantum technologies
14. Color centers in silicon carbide
15. Defect engineering and charge-state control of color centers in silicon carbide
16. Silicon carbide spin-photon interface
17. Silicon carbide photonics technologies and fabrication methods
18. Quantum nonlinear photonics in silicon carbide
19. Electrically driven quantum emitters in diamond and silicon carbide
20. Spin defects in silicon carbide for maser applications
21. Conclusions and Outlook