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Gravitational-wave transient interpretation

CC-BY-4.0vfr_44f1a004166ef85e

id: vfr_44f1a004166ef85e
license: CC-BY-4.0
findings: 130
accepted core: 30
contested: 0

130

findings

links

130

sources

130

evidence

contested

0.80

avg conf

frontiers / frontier

Gravitational-wave transient interpretation

CC-BY-4.0vfr_44f1a004166ef85e

id: vfr_44f1a004166ef85e
license: CC-BY-4.0
findings: 130
accepted core: 30
contested: 0

130

findings

links

130

sources

130

evidence

contested

0.80

avg conf

Finding bundle

back to state

Hierarchical triple-star mergers in globular clusters can produce high-spin black hole binaries (χ > 0.7) through dynamical assembly and repeated momentum transfer before coalescence.

no incoming links yet

id: vf_6c08ac2736da5da4
frontier: Gravitational-wave transient interpretation
version: 1
confidence: 0.75

record state

frontier-owned

Review status

This finding is part of accepted frontier state. Review events, reviewable changes, and proof state explain how it can change.

unreviewed

finding statement

finding type

mechanism

No entity list is declared.

evidence

source-bound

1 atoms

theoretical · manual state transition

proof impact

packet context

2 events

2 reviewable changes and 0 evaluation records are attached to this finding id.

Evidence and conditions

method

manual state transition

evidence type

theoretical

conditions

species_unverified
species_verified
text: Requires dense stellar environment (ρ > 10⁵ M_sun/pc³); spin outcome depends on detailed impact parameters and mass ratios in triple encounters.

Provenance

source title

N-body globular cluster simulations (Arca Sedda, Giesler et al.)

authors

reviewer:will-blair

Source records

source record

declared

N-body globular cluster simulations (Arca Sedda, Giesler et al.)

vs_c42842b5ffcb62c8

title:N-body globular cluster simulations (Arca Sedda, Giesler et al.)

2018manual_curation

inspect source →

Evidence atoms

vea_4d593ce0719510c7theoretical · unknown
Hierarchical triple-star mergers in globular clusters can produce high-spin black hole binaries (χ > 0.7) through dynamical assembly and repeated momentum transfer before coalescence.
vs_c42842b5ffcb62c8 · manual_curation

Typed links

outgoing

contradictsvf_0dcab8f661247617
Dynamical triple assembly (3) predicts high-spin progeny, whereas standard core-collapse yields low natal spins (4).

incoming

No incoming links.

Review, event, and evaluation records

events

vev_13450349980d9611finding.asserted
Manual finding added to frontier state
reviewer:will-blair · 2026-05-29
vev_c1eee742609eaf39finding.caveated
Verifier caution: Claim about hierarchical triple mergers producing χ > 0.7 black holes cites Arca Sedda and Giesler et al. but provides no DOI or URL. The specific quantitative claim cannot be verified.
reviewer:will-blair · 2026-05-29

reviewable changes

vpr_90f5218d7ca48ed3finding.add
Manual finding added to frontier state
applied · reviewer:will-blair · 2026-05-29
vpr_b99b9d43bcd558bafinding.caveat
Verifier caution: Claim about hierarchical triple mergers producing χ > 0.7 black holes cites Arca Sedda and Giesler et al. but provides no DOI or URL. The specific quantitative claim cannot be verified.
applied · reviewer:will-blair · 2026-05-29

evaluations

No evaluation record targets this finding id.

Finding bundle

back to state

Hierarchical triple-star mergers in globular clusters can produce high-spin black hole binaries (χ > 0.7) through dynamical assembly and repeated momentum transfer before coalescence.

no incoming links yet

id: vf_6c08ac2736da5da4
frontier: Gravitational-wave transient interpretation
version: 1
confidence: 0.75

record state

frontier-owned

Review status

This finding is part of accepted frontier state. Review events, reviewable changes, and proof state explain how it can change.

unreviewed

finding statement

finding type

mechanism

No entity list is declared.

evidence

source-bound

1 atoms

theoretical · manual state transition

proof impact

packet context

2 events

2 reviewable changes and 0 evaluation records are attached to this finding id.

Evidence and conditions

method

manual state transition

evidence type

theoretical

conditions

species_unverified
species_verified
text: Requires dense stellar environment (ρ > 10⁵ M_sun/pc³); spin outcome depends on detailed impact parameters and mass ratios in triple encounters.

Provenance

source title

N-body globular cluster simulations (Arca Sedda, Giesler et al.)

authors

reviewer:will-blair

Source records

source record

declared

N-body globular cluster simulations (Arca Sedda, Giesler et al.)

vs_c42842b5ffcb62c8

title:N-body globular cluster simulations (Arca Sedda, Giesler et al.)

2018manual_curation

inspect source →

Evidence atoms

vea_4d593ce0719510c7theoretical · unknown
Hierarchical triple-star mergers in globular clusters can produce high-spin black hole binaries (χ > 0.7) through dynamical assembly and repeated momentum transfer before coalescence.
vs_c42842b5ffcb62c8 · manual_curation

Typed links

outgoing

contradictsvf_0dcab8f661247617
Dynamical triple assembly (3) predicts high-spin progeny, whereas standard core-collapse yields low natal spins (4).

incoming

No incoming links.

Review, event, and evaluation records

events

vev_13450349980d9611finding.asserted
Manual finding added to frontier state
reviewer:will-blair · 2026-05-29
vev_c1eee742609eaf39finding.caveated
Verifier caution: Claim about hierarchical triple mergers producing χ > 0.7 black holes cites Arca Sedda and Giesler et al. but provides no DOI or URL. The specific quantitative claim cannot be verified.
reviewer:will-blair · 2026-05-29

reviewable changes

vpr_90f5218d7ca48ed3finding.add
Manual finding added to frontier state
applied · reviewer:will-blair · 2026-05-29
vpr_b99b9d43bcd558bafinding.caveat
Verifier caution: Claim about hierarchical triple mergers producing χ > 0.7 black holes cites Arca Sedda and Giesler et al. but provides no DOI or URL. The specific quantitative claim cannot be verified.
applied · reviewer:will-blair · 2026-05-29

evaluations

No evaluation record targets this finding id.

Search Canopus

Review status

mechanism

1 atoms

2 events

Source records

N-body globular cluster simulations (Arca Sedda, Giesler et al.)

Evidence atoms

Typed links

Review, event, and evaluation records

Review status

mechanism

1 atoms

2 events

Source records

N-body globular cluster simulations (Arca Sedda, Giesler et al.)

Evidence atoms

Typed links

Review, event, and evaluation records