# Collaborative Innovation Center of Quantum Matter

> research institute in Beijing, China

**Wikidata**: [Q50513074](https://www.wikidata.org/wiki/Q50513074)  
**Source**: https://4ort.xyz/entity/collaborative-innovation-center-of-quantum-matter

## Summary
The Collaborative Innovation Center of Quantum Matter is a research institute located in Beijing, China, that focuses on quantum matter research. It is officially known in Chinese as 量子物質科学協同創新中心 and operates under the ROR identifier 03jn38r85.

## Key Facts
- ROR identifier: 03jn38r85
- Located in Beijing, People's Republic of China
- Chinese name: 量子物質科学協同創新中心
- GRID identifier: grid.495569.2
- Website: http://www.phy.pku.edu.cn/research/bcqm/index.html
- Classification: research institute
- Wikidata description: research institute in Beijing, China

## FAQs
### Q: What is the Collaborative Innovation Center of Quantum Matter?
A: The Collaborative Innovation Center of Quantum Matter is a research institute in Beijing, China dedicated to the study of quantum matter, serving as a center for scientific innovation in this specialized field.

### Q: Where is the Collaborative Innovation Center of Quantum Matter located?
A: The center is located in Beijing, People's Republic of China, operating within China's capital city.

### Q: What is the official Chinese name of the Collaborative Innovation Center of Quantum Matter?
A: The official Chinese name of the center is 量子物質科学協同創新中心, which translates to "Collaborative Innovation Center of Quantum Matter."

### Q: Can I visit the Collaborative Innovation Center of Quantum Matter online?
A: Yes, the center maintains a website at http://www.phy.pku.edu.cn/research/bcqm/index.html where more information about their activities may be available.

## Why It Matters
Research institutes focused on quantum matter play a crucial role in advancing fundamental scientific understanding that could lead to breakthrough technologies. Quantum physics represents one of the frontiers of modern science, with potential applications in computing, cryptography, and materials science. The Collaborative Innovation Center of Quantum Matter contributes to China's scientific research capabilities in this critical field, supporting the country's technological development goals while advancing global knowledge of quantum phenomena. By concentrating expertise and resources, centers like this help accelerate discoveries that could transform various industries.

## Notable For
- Serves as a dedicated center for quantum matter research within China
- Has a unique ROR identifier (03jn38r85) for global research identification
- Maintains distinct Chinese and English names for international recognition
- Listed in the Global Research Identifier Database with GRID ID grid.495569.2
- Official website hosted at a Chinese academic institution domain

## Body
### Institutional Identity
The Collaborative Innovation Center of Quantum Matter is formally classified as a research institute, an organization whose primary purpose is scientific research. The center operates under the ROR (Research Organization Registry) identifier 03jn38r85, which uniquely identifies it in global research databases.

### Location and Affiliation
The center is physically located in Beijing, the capital of the People's Republic of China. Its website is hosted at http://www.phy.pku.edu.cn/research/bcqm/index.html, indicating an affiliation with Peking University's physics department.

### International Recognition
The center is recognized internationally through its GRID identifier (grid.495569.2), a global unique identifier for research organizations. This classification helps researchers worldwide locate and cite the institution in academic contexts.

### Nomenclature
The center operates with dual naming conventions:
- English: Collaborative Innovation Center of Quantum Matter
- Chinese: 量子物質科学協同創新中心

### Institutional Purpose
As a research institute, the center's primary function is to conduct scientific research focused on quantum matter, contributing to the advancement of knowledge in this specialized field of physics.

## References

1. GRID Release 2018-05-01