L1 ⚛ L1-915 ◆ Frontier — not yet benchmarked

Room-Temperature Superconductivity — Eliashberg Tc

Materials Science · Superconductivity

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Introduction

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Room-Temperature Superconductivity — Eliashberg Tc is a problem in Materials Science. The forward model maps the hidden the unknown quantity to a measurement. The inverse goal is to recover the the unknown quantity from the observed data.

Governing Equation

Eliashberg/Allen–Dynes Tc from the electron–phonon spectral function α²F(ω) and Coulomb pseudopotential μ*; inverse-design candidate crystals for high Tc.

Materials Science L_DAG Tc mae

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Digital Twins

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Each digital twin (L2) is a concrete instantiation of this principle's forward operator with a specific Ω parameter space. Benchmarks (L3) are seeded from each twin.

#	Digital Twin	ID
1	Electron-Phonon Tc Prediction Twin	L2-915

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On-Chain Artifact Registry

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Principle — Room-Temperature Superconductivity — Eliashberg Tc L1-915 Testnet

PWM Registry — Principle #915

Room-Temperature Superconductivity — Eliashberg Tc · P = (E, G, W, C)

Forward Model

Eliashberg/Allen–Dynes Tc from the electron–phonon spectral function α²F(ω) and Coulomb pseudopotential μ*; inverse-design candidate crystals for high Tc.

Sensing: —

Carrier: —

Problem class: —

Recover: —

Noise model: —

DAG Decomposition — G = (V, A)

L_DAG:

Well-Posedness Certificate

Existence

—

Uniqueness

—

Stability

—

Error-Bounding Methodology

Primary: Tc mae

Hardness function: grand_challenge

📝 Markdown source — L1-915.md

# ⚛ L1 Principle — Room-Temperature Superconductivity — Eliashberg Tc **ID:** `L1-915` · **Status:** ⊙ Testnet (genesis catalog) > **🌐 Domain:** Materials Science — *Superconductivity* --- ## 🧠 1. Introduction **Room-Temperature Superconductivity — Eliashberg Tc** is a **inverse problem**, within the **Superconductivity** sub-domain of **Materials Science**. ## ⚙ 2. Forward Model ``` Eliashberg/Allen–Dynes Tc from the electron–phonon spectral function α²F(ω) and Coulomb pseudopotential μ*; inverse-design candidate crystals for high Tc. ``` ## 🔬 3. Physics Fingerprint | Property | Value | |---|---| | Domain | Materials Science | | Sub domain | Superconductivity | ## 📡 4. Measurement Model | Metric | Value | |---|---| | Metric | Tc_mae | ## ⚖ 6. Hardness Function Hardness scales as **`grand_challenge`** on **Tc_mae**. ## 💾 7. Reference Dataset - **SuperCon Tc database** · weight 0.5 · IPFS _(not pinned yet)_ - **DFT electron-phonon α²F corpus** · weight 0.3 · IPFS _(not pinned yet)_ - **High-pressure hydride dataset** · weight 0.2 · IPFS _(not pinned yet)_ **Staked PWM:** 5000.0 --- ## File Mapping This bundle consists of: `L1-915.md`, `L1-915.json`. | File | Role | How to regenerate | |------|------|-------------------| | `L1-915.md` | Source of truth — edit this | Human or LLM | | `L1-915.json` | Structured metadata for the registry | LLM regenerates from the sections above | **Prompt for your LLM after editing this Markdown:** > Read the attached Markdown. Regenerate the sibling `.json` so every field matches. > Preserve the schema documented in the rows above. > Output each file in its own fenced code block tagged with the filename. > Output only the JSON object. _This Markdown was auto-synthesized from the catalog row for `L1-915`._ _Edit it, regenerate the JSON, and submit at [/submit](/submit) to claim the artifact._

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You are helping me submit a MODIFICATION of L1-915 (Room-Temperature Superconductivity — Eliashberg Tc) to the PWM Protocol — a Principle (L1) artifact.

I will paste a Markdown template (or the current L1-915.md).
1. Rewrite the Markdown so the science is correct and clearly explained for my change.
2. Regenerate the sibling L1-915.json so EVERY field matches the Markdown.
3. Keep the schema in the "File Mapping" footer at the bottom of the MD.
4. Keep the parent reference unchanged unless I ask otherwise.
Rules: the Markdown is the source of truth; use SI units; do NOT invent benchmark scores.
Output each file in its own fenced code block tagged with the filename.

Here is my template:
[PASTE THE .md HERE]

Room-Temperature Superconductivity — Eliashberg Tc

Introduction

Digital Twins

Contents

Room-Temperature Superconductivity — Eliashberg Tc · P = (E, G, W, C)

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