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extract: 2025-07-30-jacs-kyb3f10-adr-27mK-helium-free
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domains/space-development/falling launch costs paradoxically both enable and threaten in-space resource utilization by making infrastructure affordable while competing with the end product.md
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@ -57,6 +57,12 @@ EuCo2Al9 ADR materials create a terrestrial alternative to lunar He-3 extraction
Interlune's milestone-gated financing structure suggests investors are managing the 'launch cost competition' risk by deferring capital deployment until technology proves out. The $23M raised vs. $500M+ contracts ratio shows investors won't fund full-scale infrastructure until extraction is demonstrated, precisely because falling launch costs create uncertainty about whether lunar He-3 can compete with terrestrial alternatives or Earth-launched supplies. Interlune's milestone-gated financing structure suggests investors are managing the 'launch cost competition' risk by deferring capital deployment until technology proves out. The $23M raised vs. $500M+ contracts ratio shows investors won't fund full-scale infrastructure until extraction is demonstrated, precisely because falling launch costs create uncertainty about whether lunar He-3 can compete with terrestrial alternatives or Earth-launched supplies.
### Additional Evidence (extend)
*Source: [[2025-07-30-jacs-kyb3f10-adr-27mK-helium-free]] | Added: 2026-03-20*
ADR systems using frustrated magnets (KYb3F10) achieved 27.2 mK in July 2025, approaching superconducting qubit temperatures and demonstrating that He-3 substitution technology is advancing faster than previously assumed. The gap between research ADR (27.2 mK) and qubit requirements (10-15 mK) is now only ~2x, compared to commercial ADR at 100-300 mK (4-10x gap). This accelerates the substitution timeline for He-3 demand in quantum computing, the primary terrestrial application driving cislunar He-3 extraction economics.
--- ---
Relevant Notes: Relevant Notes:

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inbox/queue/.extraction-debug/2025-07-30-jacs-kyb3f10-adr-27mK-helium-free.json Normal file
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@ -0,0 +1,25 @@
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inbox/queue/2025-07-30-jacs-kyb3f10-adr-27mK-helium-free.md
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@ -7,9 +7,13 @@ date: 2025-07-30
domain: space-development domain: space-development
secondary_domains: [] secondary_domains: []
format: journal-article format: journal-article
status: unprocessed status: enrichment
priority: high priority: high
tags: [helium-3, ADR, adiabatic-demagnetization, quantum-computing, cryogenics, he3-alternatives, cislunar-resources, interlune] tags: [helium-3, ADR, adiabatic-demagnetization, quantum-computing, cryogenics, he3-alternatives, cislunar-resources, interlune]
processed_by: astra
processed_date: 2026-03-20
enrichments_applied: ["falling launch costs paradoxically both enable and threaten in-space resource utilization by making infrastructure affordable while competing with the end product.md"]
extraction_model: "anthropic/claude-sonnet-4.5"
--- ---
## Content ## Content
@ -57,3 +61,13 @@ This paper is significant evidence that ADR-based He-3-free alternatives are app
PRIMARY CONNECTION: Pattern 4 (He-3 demand temporal bound) — this is the key technical evidence on the He-3 substitution timeline PRIMARY CONNECTION: Pattern 4 (He-3 demand temporal bound) — this is the key technical evidence on the He-3 substitution timeline
WHY ARCHIVED: Most important technical finding of the session — resolves the "does ADR plateau at 100-500 mK?" question with evidence that research ADR is now approaching superconducting qubit temperatures WHY ARCHIVED: Most important technical finding of the session — resolves the "does ADR plateau at 100-500 mK?" question with evidence that research ADR is now approaching superconducting qubit temperatures
EXTRACTION HINT: Focus on the gap between 27.2 mK achieved and 10-15 mK needed — this gap (~2x) is much smaller than the commercial ADR gap (100-300 mK, or 4-10x). Extractor should calibrate substitution timeline: research at 27 mK now, commercial products likely 5-8 years from here. EXTRACTION HINT: Focus on the gap between 27.2 mK achieved and 10-15 mK needed — this gap (~2x) is much smaller than the commercial ADR gap (100-300 mK, or 4-10x). Extractor should calibrate substitution timeline: research at 27 mK now, commercial products likely 5-8 years from here.
## Key Facts
- KYb3F10 achieved 27.2 mK minimum temperature at 6 Tesla magnetic field in laboratory conditions (July 2025)
- KYb3F10 magnetic entropy change exceeds commercial ADR refrigerants by 146% and 219% on two key metrics
- KYb3F10 magnetic ordering temperature is below 50 mK
- Most superconducting qubit systems operate at or below 20 mK
- Typical dilution refrigerator operating temperature for quantum computers is ~10-15 mK
- Research team is Chinese (Qiao-Fei Xu, Xin-Yang Liu, et al.)
- Paper published in Journal of the American Chemical Society, Vol. 147, Issue 30, pages 27089-27094