IRMM525A
Niobium
IRMM®, certified reference material, 0.02 mm foil
Synonym(s):
Columbium
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About This Item
Recommended Products
grade
certified reference material
Agency
IRMM®
manufacturer/tradename
JRC
resistivity
13-16 μΩ-cm, 20°C
bp
4742 °C (lit.)
mp
2468 °C (lit.)
density
8.57 g/mL at 25 °C (lit.)
format
matrix material
SMILES string
[Nb]
InChI
1S/Nb
InChI key
GUCVJGMIXFAOAE-UHFFFAOYSA-N
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Analysis Note
For more information please see:
IRMM525A
IRMM525A
Legal Information
IRMM is a registered trademark of European Commission
Storage Class Code
13 - Non Combustible Solids
WGK
nwg
Flash Point(F)
Not applicable
Flash Point(C)
Not applicable
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Journal of physics. Condensed matter : an Institute of Physics journal, 25(8), 085701-085701 (2013-01-31)
We report results of measurements of the ac conductivity of a Nb superconducting thin film in a swept dc magnetic field. In the mixed state the swept dc field creates vortices at the film surface which pass through the film
Optics express, 20(25), 27562-27568 (2012-12-25)
We demonstrate error-free 80km transmission by a silicon carrier-depletion Mach-Zehnder modulator at 10Gbps and the power penalty is as low as 1.15dB. The devices were evaluated through the bit-error-rate characterizations under the system-level analysis. The silicon Mach-Zehnder modulator was also
Optics express, 20(27), 28989-29001 (2012-12-25)
We report on the design and demonstration of electro-optically tunable, multi-wavelength optical parametric generators (OPGs) based on aperiodically poled lithium niobate (APPLN) crystals. Two methods have been proposed to significantly enhance the electro-optic (EO) tunability of an APPLN OPG constructed
Optics express, 21(3), 3243-3252 (2013-03-14)
In this paper the Fano resonance in a free-standing LiNbO(3) photonic crystal slab is demonstrated. We present a numerical analysis and experimental measurements with free space illumination where the dependence of slab thickness, radius of air holes and lattice types
Optics express, 20(25), 27442-27455 (2012-12-25)
We present a theoretical model on the effects of mechanical perturbations on the output power instability of singly-resonant optical parametric oscillators (SR-OPOs). Numerical simulations are performed based on real experimental parameters associated with a SR-OPO designed in our laboratory, which
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