[
{
"id": "authors:9wxth-njm41",
"collection": "authors",
"collection_id": "9wxth-njm41",
"cite_using_url": "https://authors.library.caltech.edu/records/9wxth-njm41",
"type": "monograph",
"title": "Pair-Breaking and Dimensionality in Spin-Orbit Coupled Superconductors",
"author": [
{
"family_name": "Dorrian",
"given_name": "Reiley",
"orcid": "0009-0000-9599-6127",
"clpid": "Dorrian-Reiley"
},
{
"family_name": "Ohno",
"given_name": "Mizuki",
"orcid": "0000-0002-8460-5060",
"clpid": "Ohno-Mizuki"
},
{
"family_name": "Williams",
"given_name": "Elena",
"orcid": "0009-0001-0311-6370",
"clpid": "Williams-Elena"
},
{
"family_name": "Llanos",
"given_name": "Adrian",
"orcid": "0000-0002-5723-8007",
"clpid": "Llanos-Adrian Richard"
},
{
"family_name": "Joseph",
"given_name": "Falson",
"orcid": "0000-0003-3183-9864",
"clpid": "Falson-Joseph"
}
],
"abstract": "The response of ultra-thin superconducting materials under parallel magnetic fields is often leveraged to obtain insight into the nature of the condensate, including features attributable to unconventional forms of pairing. Despite there being multiple competing mechanisms responsible for suppressing superconductivity, it is common for these analyses to overlook certain depairing channels. Here we report an analysis of thickness dependent superconductivity in thin films of \\ce{LaBi2} using the multi-mechanism Kharitonov-Feigel'man framework . By resolving field-enhanced superconductivity in the thin-limit, we obtain an estimate the role of spin exchange scattering, in addition to paramagnetic and orbital effects. Our analyses offer insight into how fundamental quantities such as the critical temperature as well as Pauli limit are defined, recasting the landscape for how scattering times in two-dimensional superconductors can be interpreted.",
"doi": "10.48550/arxiv.2605.06514",
"publisher": "arXiv",
"publication_date": "2026-05-07"
},
{
"id": "authors:naz5f-afq03",
"collection": "authors",
"collection_id": "naz5f-afq03",
"cite_using_url": "https://authors.library.caltech.edu/records/naz5f-afq03",
"type": "monograph",
"title": "Anisotropic multiband magnetotransport in LaAg\u2082Ge\u2082 thin films",
"author": [
{
"family_name": "Ohno",
"given_name": "Mizuki",
"orcid": "0000-0002-8460-5060",
"clpid": "Ohno-Mizuki"
},
{
"family_name": "Dorrian",
"given_name": "Reiley",
"orcid": "0009-0000-9599-6127",
"clpid": "Dorrian-Reiley"
},
{
"family_name": "Show",
"given_name": "Veronica",
"orcid": "0000-0002-5700-0429",
"clpid": "Show-Veronica"
},
{
"family_name": "Joseph",
"given_name": "Falson",
"orcid": "0000-0003-3183-9864",
"clpid": "Falson-Joseph"
}
],
"abstract": "ThCr2Si2-type intermetallics are layered conductors in which crystallographic anisotropy and multiband electronic states often give rise to characteristic magnetotransport phenomena. Here, we report the molecular-beam epitaxy growth of LaAg2Ge2
thin films on MgO(001) and their magnetotransport properties. The Hall effect and magnetoresistance are captured by an effective two-carrier description with a high-mobility electron band, yielding a positive magnetoresistance of 22.5% at 9 T. Angle-dependent magnetoresistance exhibits a dominant twofold anisotropy and additional reproducible dip/peak features at characteristic tilt angles that are nearly independent of field and temperature. These results extend our understanding of the anisotropic electronic transport in thin-film germanides within the ThCr2Si2 family.
",
"doi": "10.48550/arxiv.2604.20709",
"publisher": "arXiv",
"publication_date": "2026-04-22"
},
{
"id": "authors:qgn40-9j991",
"collection": "authors",
"collection_id": "qgn40-9j991",
"cite_using_url": "https://authors.library.caltech.edu/records/qgn40-9j991",
"type": "monograph",
"title": "Relativistic Effects in LaBi\u2082 Thin Films",
"author": [
{
"family_name": "Dorrian",
"given_name": "Reiley",
"orcid": "0009-0000-9599-6127",
"clpid": "Dorrian-Reiley"
},
{
"family_name": "Song",
"given_name": "Sungmin",
"orcid": "0009-0004-4731-715X"
},
{
"family_name": "Kim",
"given_name": "Jinwoong",
"orcid": "0000-0003-3616-865X"
},
{
"family_name": "Ohno",
"given_name": "Mizuki",
"orcid": "0000-0002-8460-5060",
"clpid": "Ohno-Mizuki"
},
{
"family_name": "Jhi",
"given_name": "Seung-Hoon",
"orcid": "0000-0003-4623-2950"
},
{
"family_name": "Kioussis",
"given_name": "Nicholas",
"orcid": "0000-0002-3277-3716"
},
{
"family_name": "Joseph",
"given_name": "Falson",
"orcid": "0000-0003-3183-9864",
"clpid": "Falson-Joseph"
}
],
"abstract": "Chemical substitution in crystalline quantum materials is a powerful way to explore the consequences of strong spin-orbit coupling on their structural and electronic properties. In this work, we present an investigation of thin films of the LaPn2 (Pn = Sb, Bi) class of layered square-net intermetallics. We report the growth of LaBi2 with a pristine layer-by-layer growth mode, classifying it as a good metal displaying superconductivity at ∼0.55 K. Compared to LaSb2 , we attribute the enhanced metallic behavior and improved growth dynamics of LaBi2 to significant relativistic corrections to its electronic band structure and the resulting impact on both surface energy and intrinsic phonon scattering.
",
"doi": "10.48550/arxiv.2602.09975",
"publisher": "arXiv",
"publication_date": "2026-02-10"
}
]