kees-study/superconductivity
1
0
Fork 0
Code Issues Pull Requests Projects Releases Wiki Activity

Add first version of assignment 1

Browse Source
This commit is contained in:
Kees van Kempen
2022-02-13 23:47:10 +01:00
commit b92c40eeab
3 changed files with 147 additions and 0 deletions
Download Patch File Download Diff File Expand all files Collapse all files

61
references.bib Normal file
View File

@ -0,0 +1,61 @@
@article{webb,
title = {Superconductivity in the elements, alloys and simple compounds},
volume = {514},
issn = {09214534},
url = {https://linkinghub.elsevier.com/retrieve/pii/S0921453415000647},
doi = {10.1016/j.physc.2015.02.037},
language = {en},
urldate = {2022-02-13},
journal = {Physica C: Superconductivity and its Applications},
author = {Webb, G.W. and Marsiglio, F. and Hirsch, J.E.},
month = jul,
year = {2015},
pages = {17--27},
}
@book{smidt,
address = {Berlin},
title = {The {Physics} of superconductors: introduction to fundamentals and applications},
isbn = {9783642082511},
shorttitle = {The {Physics} of superconductors},
language = {eng},
publisher = {Springer},
author = {Šmidt, Vadim V. and Müller, Paul},
year = {2010},
}
@book{waldram,
address = {Bristol ; Philadelphia, Pa},
title = {Superconductivity of metals and cuprates},
isbn = {9780852743355 9780852743379},
publisher = {Institute of Physics Pub},
author = {Waldram, J. R.},
year = {1996},
keywords = {Superconductivity},
}
@misc{rhowiki,
title = {Electrical resistivity and conductivity},
copyright = {Creative Commons Attribution-ShareAlike License},
url = {https://en.wikipedia.org/w/index.php?title=Electrical_resistivity_and_conductivity&oldid=1070466789},
abstract = {Electrical resistivity (also called specific electrical resistance or volume resistivity) is a fundamental property of a material that measures how strongly it resists electric current. A low resistivity indicates a material that readily allows electric current. Resistivity is commonly represented by the Greek letter ρ (rho). The SI unit of electrical resistivity is the ohm-meter (Ω⋅m). For example, if a 1 m3 solid cube of material has sheet contacts on two opposite faces, and the resistance between these contacts is 1 Ω, then the resistivity of the material is 1 Ω⋅m.
Electrical conductivity or specific conductance is the reciprocal of electrical resistivity. It represents a material's ability to conduct electric current. It is commonly signified by the Greek letter σ (sigma), but κ (kappa) (especially in electrical engineering) and γ (gamma) are sometimes used. The SI unit of electrical conductivity is siemens per metre (S/m).},
language = {en},
urldate = {2022-02-13},
journal = {Wikipedia},
month = feb,
year = {2022},
note = {Page Version ID: 1070466789},
}
@book{crc,
address = {Boca Raton},
edition = {84. ed., 2003/2004},
title = {{CRC} handbook of chemistry and physics: a ready-reference book of chemical and physical data},
isbn = {9780849304842},
shorttitle = {{CRC} handbook of chemistry and physics},
publisher = {CRC Press},
author = {{Chemical Rubber Company}},
editor = {Lide, David R.},
year = {2003},
}

49
sc_elements.py Executable file
View File

@ -0,0 +1,49 @@
#!/bin/env python3
import pandas as pd
import re
df = pd.DataFrame(
[
['Nb', 9.25, 152., '[webb]', 'at 273 K [crc]'],
['Tc', 8.2, 200., '[webb]', '[rhowiki]'],
['Pb', 7.2, 213., '[webb]', '[crc]'],
['La', 6, 615., '[webb]', '[crc]'],
['V', 5.4, 202., '[webb]', '[crc]'],
['Ta', 4.4, 135., '[webb]', '[crc]'],
['Hg', 4.15, 961., '[webb]', 'at 298 K [crc]'],
['Sn', 3.7, 115., '[webb]', 'at 273 K [crc]'],
['In', 3.4, 80., '[webb]', 'at 273 K [crc]'],
['Tl', 2.4, 150., '[webb]', 'at 273 K [crc]'],
['Re', 1.7, 172., '[webb]', 'at 273 K [crc]'],
['Th', 1.4, 147., '[webb]', 'at 273 K [crc]'],
['Pa', 1.4, 108.0, '[webb]', '[crc]' ],
['U', 1.3, 280., '[webb]', 'at 273 K [crc]'],
['Al', 1.18, 27.33, '[webb]', '[crc]'],
['Ga', 1.08, 136., '[webb]', 'at 273 K [crc]'],
['Am', 1, 689., '[webb]', '[rhowiki]'],
['Mo', .92, 55.2, '[webb]', '[crc]'],
['Zn', .85, 60.6, '[webb]', '[crc]'],
['Os', .7, 81., '[webb]', 'at 273 K [crc]'],
['Zr', .6, 433., '[webb]', '[crc]'],
['Cd', .52, 68., '[webb]', 'at 273 K [crc]'],
['Ru', .5, 71., '[webb]', 'at 273 K [crc]'],
['Ti', .5, 390., '[webb]', 'at 273 K [crc]'],
['Hf', .38, 340., '[webb]', '[crc]'],
['Ir', .1, 47., '[webb]', 'at 273 K [crc]'],
['Lu', .1, 582., '[webb]', '[crc]'],
['Be', 1440, 37.6, '[webb]', '[crc]'],
['W', .01, 54.4, '[webb]', '[crc]'],
['Li', .0004, 95.5, '[webb]', '[crc]'],
['Rh', .0003, 43., '[webb]', 'at 273 K [crc]'],
],
columns = ['element', 'T_c', 'rho_300', 'T_c source', 'rho_300 source']
)
table = df.to_latex(index = False, header = ['Element', 'tctex', 'rhotex', 'Tcsource', 'rhosource'])
table = table.replace('tctex', '$T_c (\\si{\\kelvin})$')
table = table.replace('rhotex', '$\\rho_{300 K} (\\si{\\nano\\ohm\\meter})$')
table = table.replace('Tcsource', 'Source $T_c$')
table = table.replace('rhosource', 'Source $\\rho_{300 K}$')
table = re.sub(r'\[(\w+)\]', r'\\cite{\1}', table)
with open('sc_elements.tex', 'w') as table_file:
table_file.write(table)

37
sc_elements.tex Normal file
View File

@ -0,0 +1,37 @@
\begin{tabular}{lrrll}
\toprule
Element & $T_c (\si{\kelvin})$ & $\rho_{300 K} (\si{\nano\ohm\meter})$ & Source $T_c$ & Source $\rho_{300 K}$ \\
\midrule
Nb & 9.2500 & 152.00 & \cite{webb} & at 273 K \cite{crc} \\
Tc & 8.2000 & 200.00 & \cite{webb} & \cite{rhowiki} \\
Pb & 7.2000 & 213.00 & \cite{webb} & \cite{crc} \\
La & 6.0000 & 615.00 & \cite{webb} & \cite{crc} \\
V & 5.4000 & 202.00 & \cite{webb} & \cite{crc} \\
Ta & 4.4000 & 135.00 & \cite{webb} & \cite{crc} \\
Hg & 4.1500 & 961.00 & \cite{webb} & at 298 K \cite{crc} \\
Sn & 3.7000 & 115.00 & \cite{webb} & at 273 K \cite{crc} \\
In & 3.4000 & 80.00 & \cite{webb} & at 273 K \cite{crc} \\
Tl & 2.4000 & 150.00 & \cite{webb} & at 273 K \cite{crc} \\
Re & 1.7000 & 172.00 & \cite{webb} & at 273 K \cite{crc} \\
Th & 1.4000 & 147.00 & \cite{webb} & at 273 K \cite{crc} \\
Pa & 1.4000 & 108.00 & \cite{webb} & \cite{crc} \\
U & 1.3000 & 280.00 & \cite{webb} & at 273 K \cite{crc} \\
Al & 1.1800 & 27.33 & \cite{webb} & \cite{crc} \\
Ga & 1.0800 & 136.00 & \cite{webb} & at 273 K \cite{crc} \\
Am & 1.0000 & 689.00 & \cite{webb} & \cite{rhowiki} \\
Mo & 0.9200 & 55.20 & \cite{webb} & \cite{crc} \\
Zn & 0.8500 & 60.60 & \cite{webb} & \cite{crc} \\
Os & 0.7000 & 81.00 & \cite{webb} & at 273 K \cite{crc} \\
Zr & 0.6000 & 433.00 & \cite{webb} & \cite{crc} \\
Cd & 0.5200 & 68.00 & \cite{webb} & at 273 K \cite{crc} \\
Ru & 0.5000 & 71.00 & \cite{webb} & at 273 K \cite{crc} \\
Ti & 0.5000 & 390.00 & \cite{webb} & at 273 K \cite{crc} \\
Hf & 0.3800 & 340.00 & \cite{webb} & \cite{crc} \\
Ir & 0.1000 & 47.00 & \cite{webb} & at 273 K \cite{crc} \\
Lu & 0.1000 & 582.00 & \cite{webb} & \cite{crc} \\
Be & 1440.0000 & 37.60 & \cite{webb} & \cite{crc} \\
W & 0.0100 & 54.40 & \cite{webb} & \cite{crc} \\
Li & 0.0004 & 95.50 & \cite{webb} & \cite{crc} \\
Rh & 0.0003 & 43.00 & \cite{webb} & at 273 K \cite{crc} \\
\bottomrule
\end{tabular}