2008
DOI: 10.1088/1742-6596/97/1/012046
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High quality ultrathin NbN layers on sapphire for superconducting single photon detectors

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Cited by 9 publications
(6 citation statements)
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“…Great efforts have been made to improve the detection efficiency for visible and infrared photons. NbN films were deposited onto different substrates under varying conditions in order to find the most suitable NbN film parameters [6][7][8]. For detectors with optimized stoichiometry [9], the superconducting transition temperature T c varies from 10 to 11 K. Other Nb-based materials have also been considered [10].…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…Great efforts have been made to improve the detection efficiency for visible and infrared photons. NbN films were deposited onto different substrates under varying conditions in order to find the most suitable NbN film parameters [6][7][8]. For detectors with optimized stoichiometry [9], the superconducting transition temperature T c varies from 10 to 11 K. Other Nb-based materials have also been considered [10].…”
Section: Introductionmentioning
confidence: 99%
“…NbN films were deposited onto different substrates under varying conditions in order to find the most suitable NbN film parameters. [6][7][8] For detectors with optimized stoichiometry 9 the superconducting transition temperature 𝑇 𝑐 varies from 10 to 11 K. Other Nb-based materials have also been considered. 10 NbTiN has a slightly smaller 𝑇 𝑐 as compared to NbN (𝑇 𝑐 of NbTiN is 1 K lower than 𝑇 𝑐 of NbN) at film thickness d < 20 nm, but it does not require such high substrate temperature to grow epitaxial films (details of the dependence of the transition temperature in NbTiN on the film thickness and growth conditions can be found in reference 11).…”
Section: Introductionmentioning
confidence: 99%
“…However, due to the significant lattice-mismatch to NbN, only poly-crystalline films, not exceeding a Tc of approximately 10K at 5nm thickness, have been demonstrated [2,8,9]. In order to increase the Tc, hence the superconducting quality of the NbN ultra-thin films, substrates with low lattice mismatch to NbN such as MgO [10][11][12], sapphire [13] and the recently demonstrated 3C-SiC have been utilized and provide an epitaxial growth resulting in increased Tc, e.g., 11.8K [14,15]. Processing and life-time issues arise with the use of MgO as a buffer-layer due to its hydrophobic nature and sensitivity to alkaline solutions.…”
Section: Introductionmentioning
confidence: 99%
“…There are some examples of fabrication ultrathin films of Nb through a combined structure and electronic analysis of niobium ultrathin films (from 2 to 10 nm) formed in an ultra-high vacuum on atomically flat R -plane sapphire wafers. 100,101 Thinner than 3.3 nm, or almost the first measurement of a superconducting state, hetero-epitaxy is not possible, as shown by the textured polycrystalline morphology of the thinnest films. One monolayer (ML) is typically the thickness range over which the superconducting critical temperature rises.…”
Section: Fabrication Feasibility and Experimental Tolerancementioning
confidence: 99%