Litcius/Paper detail

Quantum technologies in diamond enabled by laser processing

Argyro N. Giakoumaki, Giulio Coccia, Vibhav Bharadwaj, John P. Hadden, A. J. Bennett, Belén Sotillo, Reina Yoshizaki, P. Olivero, Ottavia Jedrkiewicz, Roberta Ramponi, Silvia Maria Pietralunga, Monica Bollani, Angelo Bifone, Paul E. Barclay, Alexander Kubanek, Shane M. Eaton

2022Applied Physics Letters21 citationsDOIOpen Access PDF

Abstract

Integrated photonic circuits promise to be foundational for applications in quantum information and sensing technologies, through their ability to confine and manipulate light. A key role in such technologies may be played by spin-active quantum emitters, which can be used to store quantum information or as sensitive probes of the local environment. A leading candidate is the negatively charged nitrogen vacancy (NV−) diamond color center, whose ground spin state can be optically read out, exhibiting long (≈1 ms) coherence times at room temperature. These properties have driven research toward the integration of photonic circuits in the bulk of diamond with the development of techniques allowing fabrication of optical waveguides. In particular, femtosecond laser writing has emerged as a powerful technique, capable of writing light guiding structures with 3D configurations as well as creating NV complexes. In this Perspective, the physical mechanisms behind laser fabrication in diamond will be reviewed. The properties of waveguides, single- and ensemble-NV centers, will be analyzed, together with the possibility to combine such structures in integrated photonic devices, which can find direct application in quantum information and sensing.

Topics & Concepts

DiamondPhotonicsCoherence (philosophical gambling strategy)Quantum technologyFabricationQuantum sensorOptoelectronicsLaserQuantum informationQuantumPhotonic integrated circuitMaterials scienceFemtosecondNanotechnologyPhysicsQuantum networkOpticsOpen quantum systemPathologyComposite materialQuantum mechanicsMedicineAlternative medicineDiamond and Carbon-based Materials ResearchAdvanced Fiber Laser TechnologiesLaser Material Processing Techniques
Quantum technologies in diamond enabled by laser processing | Litcius