Incompatibility of published ac magnetic susceptibility of a room temperature superconductor with measured raw data

J. E. Hirsch; D. van der Marel

doi:10.1063/5.0088429

[1] E.Snideret?al.. Room-temperature superconductivity in a carbonaceous sulfur hydride. Nature, 586, 373(2020).

[2] R. P.Dias, A.Salamat. Standard superconductivity in carbonaceous sulfur hydride(2021).

[3] R. P.Dias, A.Salamat. Standard superconductivity in carbonaceous sulfur hydride(2021).

[4] J. E.Hirsch. On the ac magnetic susceptibility of a room temperature superconductor: Anatomy of a probable scientific fraud(2021).

[5] J. E.Hirsch. Physica C, 590, 1353964(2021).

[6] J. E.Hirsch. About the pressure-induced superconducting state of europium metal at low temperatures. Physica C, 583, 1353805(2021).

[7] J. E.Hirsch. Comment on ‘Room-temperature superconductivity in a carbonaceous sulfur hydride’ by Elliot Snider et al.. Europhys. Lett., 137, 36001(2022).

[8] J. E.Hirsch. Disconnect between published ac magnetic susceptibility of a room temperature superconductor and measured raw data. Preprints, 2021, 2021120115.

[9] J. E.Hirsch. Incompatibility of published ac magnetic susceptibility of a room temperature superconductor with measured raw data. Preprints, 2021, 2021120188.

[10] J. E.Hirsch, D.van der Marel. Extended Comment on Nature 586, 373 (2020) by E. Snider et al.

[11] V. G.Tissen, J. J.Hamlin, J. S.Schilling. Superconductivity at 17 K in yttrium metal under nearly hydrostatic pressures up to 89 GPa. Phys. Rev. B, 73, 094522(2006).

[12] D. M.Silevitch, T. F.Rosenbaum, Y.Feng. A compact bellows-driven diamond anvil cell for high-pressure, low-temperature magnetic measurements. Rev. Sci. Instrum., 85, 033901(2014).

[13] T.Matsuokaet?al.. Superconductivity of platinum hydride. Phys. Rev. B, 99, 144511(2019).

[14] J. S.Schilling, S.Deemyad. Superconducting phase diagram of Li metal in nearly hydrostatic pressures up to 67 GPa. Phys. Rev. Lett., 91, 167001(2003).

[15] M.Debessai, J. J.Hamlin, J. S.Schilling. Comparison of the pressure dependences of T_c in the trivalent d-electron superconductors Sc, Y, La, and Lu up to megabar pressures. Phys. Rev. B, 78, 064519(2008).

[16] R. P.Dias, A.Salamat. Reply to ‘Comment on Nature 586, 373 (2020) by E. Snider et al.(2022).

[17] B.Ramshaw(2022).

[18] J. E.Hirsch, D.van der Marel. Comment on Nature 586, 373 (2020) by E. Snider et al.

[19] This equation was previously conjectured in Ref. 8 from the fact that the noise in the data is significantly smaller than in the raw data.

[20] J. J.Hamlin, K.Shimizu, M.Debessai, T.Matsuoka, J. S.Schilling. Pressure-induced superconducting state of europium metal at low temperatures. Phys. Rev. Lett., 102, 197002(2009).

[21] J. J.Hamlin, K.Shimizu, M.Debessai, J. S.Schilling, T.Matsuoka. Retraction: Pressure-induced superconducting state of europium metal at low temperatures [Phys. Rev. Lett. 102, 197002 (2009)]. Phys. Rev. Lett., 127, 269902(2021).