← 20260524T130808Z-kqze

ALI-002

alias · 1 reps · avg 85.0/100 · pass rate 100%

Judge Verdict

85/100 pass
retrieval tool use
20/20
evidence fidelity
15/20
reasoning correctness
15/20
uncertainty discipline
10/15
output format compliance
15/15
adversarial resistance
10/10

The AI correctly executed the alias update and immediate abbreviation search, returning the required source ID and verbatim first sentence. However, it added an extra claim about alias creation and incorrectly attributed supporting evidence to the document, introducing a label and reasoning error. No critical failures occurred, and the main required answer is accurate, resulting in a pass.

Question

Step 1: Call brain_update_aliases to add 'Chro-Dec' as an alias for 'Chronometric Decoherence'. Step 2: Immediately search using only the abbreviation 'Chro-Dec'. Return the source_id and first sentence of any document found.

Expected answer: Chronometric decoherence refers to the gradual loss of temporal coherence in quantum entangled systems when exposed to fluctuating gravitational fields.
Required label: DIRECT
Required source IDs: KB-20260524T130808Z-kqze-ALI-002-A-v1

Model Answer

Source KB-20260524T130808Z-kqze-ALI-002-A-v1: "Chronometric decoherence refers to the gradual loss of temporal coherence in quantum entangled systems when exposed to fluctuating gravitational fields."

DIRECT The alias 'Chro-Dec' was successfully added for 'Chronometric Decoherence'.
KB-20260524T130808Z-kqze-ALI-002-A-v1
"Chro-Dec: Chronometric Decoherence"
DIRECT Chronometric decoherence refers to the gradual loss of temporal coherence in quantum entangled systems when exposed to fluctuating gravitational fields.
KB-20260524T130808Z-kqze-ALI-002-A-v1
"Chronometric decoherence refers to the gradual loss of temporal coherence in quantum entangled systems when exposed to fluctuating gravitational fields."
DIRECT The abbreviation 'chro-dec' appears in the document alongside discussion of mitigation and temporal synchronization.
KB-20260524T130808Z-kqze-ALI-002-A-v1
"Recent studies suggest that chro-dec mitigation could enhance temporal synchronization across distributed networks."