# European Magnetic Field Laboratory

> research institute based in Brussels, Belgium

**Wikidata**: [Q16974742](https://www.wikidata.org/wiki/Q16974742)  
**Wikipedia**: [English](https://en.wikipedia.org/wiki/European_Magnetic_Field_Laboratory)  
**Source**: https://4ort.xyz/entity/european-magnetic-field-laboratory

## Summary  
The European Magnetic Field Laboratory (EMFL) is a research institute established in 2015, based in Brussels, Belgium. It specializes in high magnetic field research, serving as a collaborative hub for scientists across Europe. EMFL provides access to advanced facilities for studies in physics, chemistry, and biology.  

## Key Facts  
- Founded in **2015**.  
- Headquartered in the **Brussels-Capital Region**, Belgium.  
- Known by the alias **EMFL**.  
- Official website: **https://emfl.eu/a** (in English).  
- Collaborates with institutions in **France, Germany, the Netherlands, and Belgium**.  
- Unique identifiers: **ROR ID 040n2wh36**, **GRID ID grid.509959.9**, **IdRef ID 284092452**.  
- Focus areas include **high magnetic field research** and **interdisciplinary science**.  

## FAQs  
### Q: When was the European Magnetic Field Laboratory founded?  
A: The European Magnetic Field Laboratory was founded in **2015**.  

### Q: Where is EMFL located?  
A: EMFL is based in the **Brussels-Capital Region**, Belgium.  

### Q: What does EMFL do?  
A: EMFL facilitates research in high magnetic fields, supporting scientific advancements in physics, chemistry, and biology through collaborative projects and access to specialized infrastructure.  

## Why It Matters  
The European Magnetic Field Laboratory plays a critical role in advancing scientific research by providing access to high magnetic field technologies, which are essential for studying material properties, biological systems, and fundamental physics. As a pan-European collaboration, EMFL fosters cross-border research, enabling scientists from member institutions in France, Germany, the Netherlands, and Belgium to tackle complex challenges. By centralizing expertise and infrastructure, EMFL accelerates discovery and innovation, contributing to breakthroughs in both basic and applied science. Its work underpins advancements in materials science, quantum technologies, and biomedical research, addressing global scientific and societal needs.  

## Notable For  
- **Pan-European collaboration**: Unites leading research institutions across four countries.  
- **Specialized infrastructure**: Offers access to high magnetic field facilities critical for advanced experiments.  
- **Interdisciplinary focus**: Supports research spanning physics, chemistry, and biology.  

## Body  
### Founding and Structure  
- **Inception**: Established in **2015** to consolidate European research efforts in high magnetic fields.  
- **Membership**: Comprises institutions from **France, Germany, the Netherlands, and Belgium**, creating a network of expertise.  

### Research Focus  
- **Core Activities**: High magnetic field research, including studies of superconductivity, magnetism, and material behavior under extreme conditions.  
- **Applications**: Advances in quantum computing, medical imaging, and energy-efficient technologies.  

### Infrastructure  
- **Facilities**: Provides specialized equipment for generating and applying high magnetic fields, though specific technical details are not disclosed in the source material.  

### Collaborations  
- **Partnerships**: Fosters partnerships between European researchers, enabling large-scale projects and knowledge sharing.  
- **Access**: Serves as a user facility for scientists across Europe, promoting open access to cutting-edge tools.

## References

1. GRID Release 2021-03-25
2. ROR Data Dump 8.0 (April 2021)