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quantum-geometry-topology-research

Research skill for quantum-geometry-topology interdisciplinary analysis. Search arxiv for quantum geometry/topology papers, import to knowledge graph (kg.db), analyze with PageRank/Louvain, extract reusable patterns. Activation: quantum geometry research, quantum topology analysis, geometry-informed quantum computing, quantum statistical analysis.

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Overview

Install command

npx skills add https://github.com/hiyenwong/ai_collection --skill quantum-geometry-topology-research

Copy and paste this command into Claude Code to install the skill

Source

hiyenwong/ai_collection

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UpdatedJune 4, 2026 at 02:00

SKILL.md

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name	quantum-geometry-topology-research
description	Research skill for quantum-geometry-topology interdisciplinary analysis. Search arxiv for quantum geometry/topology papers, import to knowledge graph (kg.db), analyze with PageRank/Louvain, extract reusable patterns. Activation: quantum geometry research, quantum topology analysis, geometry-informed quantum computing, quantum statistical analysis.

Quantum-Geometry-Topology Research Skill

Cross-disciplinary research workflow for quantum mechanics + geometry + topology + statistics.

Activation Keywords

quantum geometry research
quantum topology analysis
geometry-informed quantum computing
quantum statistical analysis
topology quantum information
quantum Fisher information
Born rule statistics
quantum probability
拓扑量子研究
量子几何分析

Tools Used

exec: Run kg_tool, Python scripts, arxiv search
read: Load existing skills, scripts
write: Create new skills, save results
web_search: Search arxiv papers

Workflow

Step 1: Search Papers

Search arxiv for quantum-geometry-topology cross-disciplinary papers:

python3 scripts/search_today_topic.py
# Keywords: quantum geometry, topology, Fisher information, Born rule, statistics

Step 2: Import to Knowledge Graph

Import papers to kg.db:

python3 scripts/import_arxiv_to_kg.py kg.db <papers_json>

Step 3: Generate Vector Embeddings

python3 scripts/generate_vectors.py

Step 4: Graph Analysis

Run PageRank and Louvain:

./scripts/kg_tool/target/release/kg_tool pagerank kg.db
./scripts/kg_tool/target/release/kg_tool louvain kg.db
./scripts/kg_tool/target/release/kg_tool search kg.db "quantum"

Step 5: Pattern Extraction

Identify reusable patterns:

Quantum Fisher information geometry applications
Topological quantum state encoding
Quantum probability for statistics/ML
Geometry-aware quantum circuit design

Step 6: Create Skill

Use skill-creator to formalize patterns:

Skill candidates:
- quantum-fisher-information-analysis
- topological-quantum-encoding
- quantum-probability-statistics

Key Concepts

Quantum Fisher Information Geometry

Geometric viewpoint on quantum states
Information geometry for quantum estimation
Bloch sphere differential geometry

Topological Quantum Computing

Toric code, loop gases, string nets
Topological quantum memories
Quantum Hall effects

Quantum Probability for Statistics

Born rule applications
Kolmogorov vs quantum probability
Machine learning connections

Output Format

# Research Analysis Summary

## Papers Imported
- Title | arXiv ID | Key Contribution

## Graph Analysis
- PageRank top papers: [IDs]
- Communities detected: [N clusters]
- Cross-domain connections: [topics]

## Extracted Patterns
1. Pattern Name: [description]
2. Pattern Name: [description]

## Skill Recommendations
- [skill-name]: [purpose]

Resources

kg.db: /Users/hiyenwong/wiki/kg.db
kg_tool: scripts/kg_tool/target/release/kg_tool
Papers: scripts/arxiv_*.json

Related Skills

skill-creator: Create new skills from patterns
skill-extractor: Extract patterns from conversations
arxiv-search: Paper search

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Source

hiyenwong

hiyenwong/ai_collection

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Install command

Download

Run Skill in Manus

name	quantum-geometry-topology-research
description	Research skill for quantum-geometry-topology interdisciplinary analysis. Search arxiv for quantum geometry/topology papers, import to knowledge graph (kg.db), analyze with PageRank/Louvain, extract reusable patterns. Activation: quantum geometry research, quantum topology analysis, geometry-informed quantum computing, quantum statistical analysis.

Quantum-Geometry-Topology Research Skill

Cross-disciplinary research workflow for quantum mechanics + geometry + topology + statistics.

Activation Keywords

quantum geometry research
quantum topology analysis
geometry-informed quantum computing
quantum statistical analysis
topology quantum information
quantum Fisher information
Born rule statistics
quantum probability
拓扑量子研究
量子几何分析

Tools Used

exec: Run kg_tool, Python scripts, arxiv search
read: Load existing skills, scripts
write: Create new skills, save results
web_search: Search arxiv papers

Workflow

Step 1: Search Papers

Search arxiv for quantum-geometry-topology cross-disciplinary papers:

python3 scripts/search_today_topic.py
# Keywords: quantum geometry, topology, Fisher information, Born rule, statistics

Step 2: Import to Knowledge Graph

Import papers to kg.db:

python3 scripts/import_arxiv_to_kg.py kg.db <papers_json>

Step 3: Generate Vector Embeddings

python3 scripts/generate_vectors.py

Step 4: Graph Analysis

Run PageRank and Louvain:

./scripts/kg_tool/target/release/kg_tool pagerank kg.db
./scripts/kg_tool/target/release/kg_tool louvain kg.db
./scripts/kg_tool/target/release/kg_tool search kg.db "quantum"

Step 5: Pattern Extraction

Identify reusable patterns:

Quantum Fisher information geometry applications
Topological quantum state encoding
Quantum probability for statistics/ML
Geometry-aware quantum circuit design

Step 6: Create Skill

Use skill-creator to formalize patterns:

Skill candidates:
- quantum-fisher-information-analysis
- topological-quantum-encoding
- quantum-probability-statistics

Key Concepts

Quantum Fisher Information Geometry

Geometric viewpoint on quantum states
Information geometry for quantum estimation
Bloch sphere differential geometry

Topological Quantum Computing

Toric code, loop gases, string nets
Topological quantum memories
Quantum Hall effects

Quantum Probability for Statistics

Born rule applications
Kolmogorov vs quantum probability
Machine learning connections

Output Format

# Research Analysis Summary

## Papers Imported
- Title | arXiv ID | Key Contribution

## Graph Analysis
- PageRank top papers: [IDs]
- Communities detected: [N clusters]
- Cross-domain connections: [topics]

## Extracted Patterns
1. Pattern Name: [description]
2. Pattern Name: [description]

## Skill Recommendations
- [skill-name]: [purpose]

Resources

kg.db: /Users/hiyenwong/wiki/kg.db
kg_tool: scripts/kg_tool/target/release/kg_tool
Papers: scripts/arxiv_*.json

Related Skills

skill-creator: Create new skills from patterns
skill-extractor: Extract patterns from conversations
arxiv-search: Paper search