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Paper Citation Record · LEDGER

Inferring the lensing rate of LIGO-Virgo sources from the stochastic gravitational wave background

As of 17 July 2026, this Paper Citation Record lists 0 of 0 outbound references and 3 inbound Pith citation observations for arXiv:2006.03064.

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

pith.paper-citation-record.v1
2006.03064 v2

Coverage vector

measured 0 of 0 reference resolution

Typed states for the displayed outbound observations.

Source: paper_references, paper_reference_links

measured 3 of 3 standing notices

One-hop event checks from named stored sources.

Source: scholarly_work_events, retraction_status_cache, observed 2026-07-17T06:31:00.352745+00:00

measured 3 of 3 inbound itemization

Pith citing papers itemized under the disclosed page cap.

Source: paper_references, paper_reference_links, observed 2026-07-11T11:50:26.030339Z

measured 0 of 1 external citation measurements

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

Source: pith, observed 2026-07-09T20:06:29.523014Z

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Outbound references

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Pith citing papers

Observation 93bb6a05-ed38-45cb-a583-d3c7cfcd52f4 · inbound

Model-Independent Search Discards Faint Lensed-Pairs of Gravitational Wave Events in the Sub-Threshold Candidates of GWTC-4 cites this paper.

Model-Independent Search Discards Faint Lensed-Pairs of Gravitational Wave Events in the Sub-Threshold Candidates of GWTC-4 Inferring the lensing rate of LIGO-Virgo sources from the stochastic gravitational wave background

Reference 56

Resolution
verified exact
arxiv_id, observed 2026-07-02T04:26:35.624234Z

Source-reported events for the cited work

No event found in the named queried sources as of 2026-07-17T06:31:00.352745+00:00.

source=pdf_text observed=2026-06-28T09:11:47.942679Z digest=sha256:86252a020518d3e1adc91fc4b8910b203420818f0ae0899ca2fda92f4513e79c

Observation 32667fbc-9152-4186-9ae2-be95f6f12a09 · inbound

Joint population and strong-lensing inference for resolved gravitational-wave events probes the black-hole merger rate beyond the peak of star formation cites this paper.

Joint population and strong-lensing inference for resolved gravitational-wave events probes the black-hole merger rate beyond the peak of star formation Inferring the lensing rate of LIGO-Virgo sources from the stochastic gravitational wave background

Reference 34

Resolution
verified exact
arxiv_id, observed 2026-06-30T14:34:46.210093Z

Source-reported events for the cited work

No event found in the named queried sources as of 2026-07-17T06:31:00.352745+00:00.

source=pdf_text observed=2026-06-30T05:24:03.103599Z digest=sha256:aa79108ba9a97b3315143039a78fde5d28d3ada9bde03f2f16f3b93a90e8dc87

Observation abebe172-85cc-4437-9393-6a5918c242bf · inbound

Prospect for Detection of Strongly Lensed Multi-messenger Signals of Binary Neutron Star Mergers cites this paper.

Prospect for Detection of Strongly Lensed Multi-messenger Signals of Binary Neutron Star Mergers Inferring the lensing rate of LIGO-Virgo sources from the stochastic gravitational wave background

Reference 88

Resolution
verified exact
local_arxiv, observed 2026-07-09T20:06:29.524192Z

Source-reported events for the cited work

No event found in the named queried sources as of 2026-07-17T06:31:00.352745+00:00.

source=arxiv_source observed=2026-07-11T11:50:26.030339Z digest=sha256:df12ac79fba08cd12fac25c34cfe225e4fa2f2a73761eb2b99be7919571069ea