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Paper Citation Record · LEDGER

The sonic scale revealed by the world's largest supersonic turbulence simulation

As of 14 July 2026, this Paper Citation Record lists 0 of 0 outbound references and 2 inbound Pith citation observations for arXiv:2011.06238.

A citation records a reference. It does not transfer a finding from one paper to another.

pith.paper-citation-record.v1
2011.06238 v1

Coverage vector

measured 0 of 0 reference resolution

Typed states for the displayed outbound observations.

Source: paper_references, paper_reference_links

measured 2 of 2 standing notices

One-hop event checks from named stored sources.

Source: scholarly_work_events, retraction_status_cache, observed 2026-07-13T06:30:06.624239+00:00

measured 2 of 2 inbound itemization

Pith citing papers itemized under the disclosed page cap.

Source: paper_references, paper_reference_links, observed 2026-07-11T07:55:39.166465Z

measured 0 of 1 external citation measurements

A source-named dated measurement, never combined with another source.

Source: arxiv_reference, observed 2026-05-18T18:21:43.653710Z

Reference resolution

0 of 0 outbound references displayed

  • verified exact0
  • verified fuzzy0
  • unresolved0
  • parse uncertain0
  • malformed identifier0
  • metadata mismatch0

External citation measurements

No source-named external measurement is stored.

Outbound references

No outbound reference observations are available for this paper version.

Pith citing papers

Observation 59af345c-ac6f-4abc-96d5-80f0bd829b94 · inbound

The universal growth of magnetic energy during the nonlinear phase of subsonic and supersonic small-scale dynamos cites this paper.

The universal growth of magnetic energy during the nonlinear phase of subsonic and supersonic small-scale dynamos The sonic scale revealed by the world's largest supersonic turbulence simulation

Reference 36

Resolution
verified exact
arxiv_id, observed 2026-05-18T18:21:43.658131Z

Source-reported events for the cited work

No event found in the named queried sources as of 2026-07-13T06:30:06.624239+00:00.

source=pdf_text observed=2026-05-18T18:21:00.717375Z digest=sha256:fd846a5adf713f2d2a3c1018c5f3928eb95403e27aaf3420e33fc6863f5ada2e

Observation 7d50858b-e072-404b-b0e5-6dc3d0355ad4 · inbound

Emergence of high-mass stars in complex fiber networks (EMERGE) VI. Turbulence dissipation and the formation of dense fibers cites this paper.

Emergence of high-mass stars in complex fiber networks (EMERGE) VI. Turbulence dissipation and the formation of dense fibers The sonic scale revealed by the world's largest supersonic turbulence simulation

Reference 44

Resolution
unresolved
no resolver link, observed 2026-07-11T07:55:39.166465Z

Source-reported events for the cited work

Unavailable: canonical work link unavailable.

source=arxiv_source observed=2026-07-11T07:55:39.166465Z digest=sha256:b6e3147618bd85c51b7ce0f1c9d1bbf64b984139614fa3b24260ebb6aae71dca