Material | Purity | diameter | reference |
---|---|---|---|
AgMn | |||
Ag | 5 cm | ||
Ag | Z400 | ||
Al | 5 cm | ||
Al | 1.5 inch | ||
Al | Z400 | ||
Al_2O_3 | Z400 | ||
Au | Z400 | 3, flat gold | |
Cu | 1.5 inch | ||
Cu | 99.95% | 5 cm | |
Cu | Z400 | ||
Cu_15Ni_85 | 99.95% | 5 cm | |
Cu_30Ni_70 | 99.95% | 5 cm | |
Cu_40Ni_60 | 99.95% | 5 cm | |
Cu_50Ni_50 | 5 cm | ||
Cu_53Ni_47 | 99.95% | 5 cm | |
Cu_55Ni_45 | 5 cm | ||
Co | Z400 | ||
Co | 99.95% | 5 cm | |
CoZr | 99.9% | 5 cm | |
Cr | Z400 | ||
Cr | 5 cm | ||
Nb | 5 cm | ||
Fe | 5 cm | ||
Fe | Z400 | ||
Fe_50Mn_50 | 5 cm | ||
Fe_90Si_10 | 5 cm | ||
Fe_95Si_5 | 5 cm | ||
Fe_96Si_4 | 5 cm | ||
Fe_30V_70 | 5 cm | ||
Fe_31V_69 | 5 cm | ||
Fe_35V_65 | 5 cm | ||
Fe_50V_50 | 5 cm | ||
Fe_55V_45 | 5 cm | ||
Fe_75V_25 | 5 cm | ||
Fe_80V_20 | 5 cm | ||
Fe_88V_12 | 5 cm | ||
Ge | 5 cm | ||
Ge | 6N | 5 cm | |
GdNi | Z400 | 1 | |
Ho | 99.95 % | 5 cm | |
MgO | broken | ||
Mo | 5 cm | ||
MoGe | Z400 | ||
Nb | Z400 | ||
NbGe | Z400 | ||
NbN | 5 cm | ||
Ni | Z400 | ||
Ni_70Fe_30 | 5 cm | ||
Ni_80Fe_20 | 5 cm | ||
Ni_85Fe_15 | 5 cm | ||
NiZr | 5 cm | ||
Pd_81Ni_19 | 5 cm | 2 | |
Pt | Z400 | ||
Ru | 99.95% | 1.5“ | |
Si | 5N | 5 cm | |
SiO_2 | Z400 | ||
Si_3N_4 | Z400 | ||
SmCo_5 | 99.95% | 5 cm | |
Ta | 99.95% | 5 cm | |
Ta | Z400 | ||
TaCu | Z400 | ||
Ti | Z400 | ||
Ti | 5 cm | ||
W | Z400 | ||
Zr | 5 cm |
1. Flux-flow-induced giant magnetoresistance in all-amorphous superconductor-ferromagnet hybrids, C. Bell, S. Turşucu, and J. Aarts, PRB 74 214520
2. Depairing current behavior in superconducting Nb∕Pd81Ni19 bilayers, C. Cirillo, A. Rusanov, C. Bell, and J. Aarts, PRB 75, 174510
3. Imaging of vortex configurations in thin films by scanning-tunneling microscopy, G. J. C. van Baarle, A. M. Troianovski, T. Nishizaki, P. H. Kes, and J. Aarts, APL 82, 1081]
La_1.84Sr_0.15CuO 99.9% 2”