diff --git a/inbox/queue/2026-03-21-lemon-sub30mk-continuous-aps-confirmed.md b/inbox/queue/2026-03-21-lemon-sub30mk-continuous-aps-confirmed.md
index d048d6b6..06c0e1d7 100644
--- a/inbox/queue/2026-03-21-lemon-sub30mk-continuous-aps-confirmed.md
+++ b/inbox/queue/2026-03-21-lemon-sub30mk-continuous-aps-confirmed.md
@@ -7,9 +7,12 @@ date: 2026-03-21
 domain: space-development
 secondary_domains: []
 format: article
-status: unprocessed
+status: enrichment
 priority: low
 tags: [He-3, quantum-computing, ADR, cryogenics, LEMON, Kiutra, substitution-risk]
+processed_by: astra
+processed_date: 2026-03-21
+extraction_model: "anthropic/claude-sonnet-4.5"
 ---
 
 ## Content
@@ -46,3 +49,12 @@ Gap remaining: 27-30 mK achieved vs. 10-25 mK required for superconducting qubit
 PRIMARY CONNECTION: [Session 2026-03-20 He-3 ADR archives]
 WHY ARCHIVED: Confirmation of prior session finding at a major academic venue — upgrades the credibility of the sub-30 mK milestone from "press release" to "peer-verified."
 EXTRACTION HINT: This is a minor update — extractor should note APS confirmation but primary value is in the prior session's archives which have more complete context.
+
+
+## Key Facts
+- Kiutra presented LEMON project results at APS Global Physics Summit in March 2026
+- LEMON project has achieved sub-30 mK temperatures continuously via ADR as of March 2026
+- LEMON project targets 10-25 mK for superconducting qubit applications
+- Current gap is approximately 2x (27-30 mK achieved vs 10-25 mK required)
+- LEMON project ends August 2027
+- LEMON explicitly targets 'full-stack quantum computers' per project description