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Author query form (AIP proof): Krstic et al., J. Appl. Phys. (JAP23-PS-00954)

Summary

Some corpus paths register publisher workflow PDFs—author query forms, proof cover sheets, or production tickets—rather than the scientific article text. This entry documents an AIP author-query / proof artifact tagged internally as JAP23-PS-00954 for a Journal of Applied Physics submission on low-energy hydrogen irradiation of lithium and lithium-compound surfaces studied with ReaxFF combined with electronegativity equalization in LAMMPS, in a fusion plasma–material interaction context. The file’s primary purpose in papers/ is editorial: ORCID checks, affiliation formatting, reference DOI hygiene, and similar queries do not constitute Methods for the underlying science. The doi field is intentionally empty here because this PDF is not the bibliographic record of the published article; operators should populate it from the version of record when synchronized. Fusion devices expose first-wall materials to low-energy hydrogen isotopes; lithium conditioning layers motivate the scientific topic even though this PDF only records production metadata.

Methods

File type (publisher workflow, not article text)

AIP author-query / proof artifact (JAP23-PS-00954)—ORCID, affiliations, reference checks—not simulation protocols.

Where science Methods live

ReaxFF+EEM, Li\(_2\)O/LiOH amorphous slabs, H 1–100 eV impacts, ~10³ trajectories, reflection/retention/sputtering analysis: [[2023krstic-j-appl-phys-detailed-studies]] (DOI 10.1063/5.0149502).

Mirroring the VOR page for retrieval: simulations use LAMMPS with ReaxFF plus electronegativity equalization so atomic charges evolve during collision cascades; amorphous Li\(_2\)O and LiOH surfaces are prepared from fluorite Li\(_2\)O starting points via melt/quench-style cycles, then bombarded by H at 1–100 eV and multiple incidence angles with ~0.25 fs timesteps and thousands of impacts accumulated for statistics—see [[2023krstic-j-appl-phys-detailed-studies]] for cell sizes and analysis definitions.

Citation practice

Cite J. Appl. Phys. VOR for pagination—not this query PDF.

Operator workflow: when merging manifests, preserve this row if publisher workflow PDFs must remain auditable, but ensure paper_id [[2023krstic-j-appl-phys-detailed-studies]] carries the bibliography and DOI consumers should cite.

4 — Author-query / non-article (no simulation on this pdf_path)

N/A for all MD/DFT checklist items—this PDF is a publisher workflow artifact, not the J. Appl. Phys. text. Simulation protocols and findings live on [[2023krstic-j-appl-phys-detailed-studies]].

Findings

No scientific reaction kinetics or plasmamaterial results in this author-query PDF—treat that content as N/A here. Compared to any J. Appl. Phys. reprint, this file’s sensitivity to pagination and affiliation flags is an operational concern only, not a physical limitation of the H+Li\(_2\)O/LiOH work itself, which is summarized under [[2023krstic-j-appl-phys-detailed-studies]]. For outlook and future citations of the H-beam sputtering kinetics (e.g. Coulombic focusing, EEM), use the published DOI 10.1063/5.0149502; this AIP form is duplicative and should not appear as evidence in a bibliography line.

Limitations

Mixing workflow PDFs with primary literature in retrieval indices can confuse embeddings; navigation sections explicitly point readers to the VOR wiki entry. A separate manifest note documents slug migration for 2023krstic-venue-paper2025krstic-venue-paper in NON_PRIMARY_ARTICLE_PAPER_SLUGS.md; this file is distinct from that retirement.

Relevance to group

Workflow artifact for van Duin-co-authored fusion PMI modeling with Princeton / Stony Brook collaborators.

Citations and evidence anchors

Reader notes (navigation)