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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

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

Evidence atom

back to sources

The horizon area increase law (second law of black hole thermodynamics) can be tested by checking whether the final black hole area inferred from ringdown observations is greater than or equal to the sum of the initial black hole areas.

id: vea_6bb84f49392b2080
frontier: Gravitational-wave transient interpretation
source: vs_23c1a1c9b8ec18b3
finding: vf_310268a4ea3f7a56

evidence boundary

unknown

theoretical

An evidence atom is an inspectable support unit. It is not a finding by itself; it supports or challenges a finding through review.

finding binding

bound

observational

The horizon area increase law (second law of black hole thermodynamics) can be tested by checking whether the final black hole area inferred from ringdown observations is greater than or equal to the sum of the initial black hole areas.

inspect finding →

source binding

source-bound

Black hole thermodynamics tests via ringdown

vs_23c1a1c9b8ec18b3

inspect source →

review context

unverified

2 events

2 reviewable changes and 0 evaluation records target this atom or its bound objects.

Evidence statement

extraction method

manual_curation

support relation

unknown

condition refs

vcnd_924ff277cbabcf5f

Caveats

missing evidence locator

Review, event, and evaluation records

events

vev_4b4cfe3e2adf465ffinding.asserted
Manual finding added to frontier state
reviewer:will-blair · 2026-05-29
vev_03e0423202238bcbfinding.caveated
Verifier caution: arxiv.org/abs/1903.08284 is correct source but the claim oversells practical testability: second law checks require precise initial and final mass/spin measurements from separate signal portions; current precision (~5% mass uncertainty) makes definitive tests difficult. Documente
reviewer:will-blair · 2026-05-29

reviewable changes

vpr_604af3f3c6282de2finding.add
Manual finding added to frontier state
applied · reviewer:will-blair · 2026-05-29
vpr_ba62f0bacc128e0ffinding.caveat
Verifier caution: arxiv.org/abs/1903.08284 is correct source but the claim oversells practical testability: second law checks require precise initial and final mass/spin measurements from separate signal portions; current precision (~5% mass uncertainty) makes definitive tests difficult. Documente
applied · reviewer:will-blair · 2026-05-29

evaluations

No evaluation rows are attached.

Evidence atom

back to sources

The horizon area increase law (second law of black hole thermodynamics) can be tested by checking whether the final black hole area inferred from ringdown observations is greater than or equal to the sum of the initial black hole areas.

id: vea_6bb84f49392b2080
frontier: Gravitational-wave transient interpretation
source: vs_23c1a1c9b8ec18b3
finding: vf_310268a4ea3f7a56

evidence boundary

unknown

theoretical

An evidence atom is an inspectable support unit. It is not a finding by itself; it supports or challenges a finding through review.

finding binding

bound

observational

inspect finding →

source binding

source-bound

Black hole thermodynamics tests via ringdown

vs_23c1a1c9b8ec18b3

inspect source →

review context

unverified

2 events

2 reviewable changes and 0 evaluation records target this atom or its bound objects.

Evidence statement

extraction method

manual_curation

support relation

unknown

condition refs

vcnd_924ff277cbabcf5f

Caveats

missing evidence locator

Review, event, and evaluation records

events

vev_4b4cfe3e2adf465ffinding.asserted
Manual finding added to frontier state
reviewer:will-blair · 2026-05-29
vev_03e0423202238bcbfinding.caveated
Verifier caution: arxiv.org/abs/1903.08284 is correct source but the claim oversells practical testability: second law checks require precise initial and final mass/spin measurements from separate signal portions; current precision (~5% mass uncertainty) makes definitive tests difficult. Documente
reviewer:will-blair · 2026-05-29

reviewable changes

vpr_604af3f3c6282de2finding.add
Manual finding added to frontier state
applied · reviewer:will-blair · 2026-05-29
vpr_ba62f0bacc128e0ffinding.caveat
Verifier caution: arxiv.org/abs/1903.08284 is correct source but the claim oversells practical testability: second law checks require precise initial and final mass/spin measurements from separate signal portions; current precision (~5% mass uncertainty) makes definitive tests difficult. Documente
applied · reviewer:will-blair · 2026-05-29

evaluations

No evaluation rows are attached.

Search Canopus

theoretical

observational

Black hole thermodynamics tests via ringdown

2 events

Review, event, and evaluation records

theoretical

observational

Black hole thermodynamics tests via ringdown

2 events

Review, event, and evaluation records