# MAX-lab
**Wikidata**: [Q6714604](https://www.wikidata.org/wiki/Q6714604)  
**Wikipedia**: [English](https://en.wikipedia.org/wiki/MAX-lab)  
**Source**: https://4ort.xyz/entity/max-lab

## Summary
MAX-lab was a Swedish research laboratory operated by Lund University, specializing in synchrotron radiation and accelerator physics. It was located in Lund Municipality and served as a national facility for scientific research until it was replaced by MAX IV.

## Key Facts
- Instance of: laboratory and research institute
- Owned by: Lund University
- Located in: Lund Municipality, Sweden
- Coordinates: 55.70937° N, 13.21003° E
- Replaced by: MAX IV
- Wikipedia languages: German (de), English (en)
- GND ID: 5272612-5 (with qualifier MAX-Laboratory (Lund))
- VIAF ID: 146723323
- Quora topic: MAX-Lab
- Sitelink count: 2

## FAQs
### Q: What was MAX-lab?
A: MAX-lab was a Swedish research laboratory operated by Lund University that specialized in synchrotron radiation and accelerator physics. It served as a national facility for scientific research before being replaced by MAX IV.

### Q: Where was MAX-lab located?
A: MAX-lab was located in Lund Municipality, Sweden, at coordinates 55.70937° N, 13.21003° E.

### Q: What institution owned MAX-lab?
A: MAX-lab was owned by Lund University, one of Sweden's oldest and most prestigious universities.

### Q: What replaced MAX-lab?
A: MAX-lab was replaced by MAX IV, a newer and more advanced synchrotron radiation facility.

### Q: What type of research was conducted at MAX-lab?
A: MAX-lab specialized in synchrotron radiation and accelerator physics research, serving as a national facility for various scientific disciplines.

## Why It Matters
MAX-lab represented a significant advancement in Swedish scientific infrastructure, providing researchers with access to cutting-edge synchrotron radiation technology. As a national facility, it enabled groundbreaking research across multiple scientific disciplines, from materials science to biology, by offering powerful tools for studying matter at the atomic and molecular level. The laboratory's existence strengthened Sweden's position in international scientific research and education, fostering collaboration between academia, industry, and international partners. Its replacement by MAX IV demonstrates the continuous evolution of scientific facilities to meet growing research demands and technological capabilities.

## Notable For
- Served as Sweden's national synchrotron radiation facility before MAX IV
- Operated by Lund University, connecting academic research with advanced technology
- Specialized in accelerator physics and synchrotron radiation applications
- Located in Lund, a major center for scientific research in Scandinavia
- Represented a significant investment in Swedish scientific infrastructure

## Body
### Technical Specifications
MAX-lab operated as a synchrotron radiation facility, providing researchers with intense beams of light for scientific experiments. The laboratory's equipment allowed for detailed analysis of materials at the atomic and molecular level.

### Institutional Context
As part of Lund University's research infrastructure, MAX-lab connected academic research with practical applications in various scientific fields. The facility supported both Swedish and international researchers, contributing to the global scientific community.

### Geographic Significance
Located in Lund Municipality, the laboratory benefited from being in one of Sweden's primary scientific hubs. The location provided access to skilled researchers and established scientific networks.

### Historical Development
MAX-lab represented an evolution in Swedish scientific facilities, eventually being succeeded by the more advanced MAX IV laboratory. This progression reflects the ongoing development of synchrotron radiation technology and increasing demands for more powerful research tools.

### Research Applications
The laboratory supported research across multiple disciplines, including materials science, chemistry, biology, and physics. Its synchrotron radiation capabilities enabled studies that would be impossible with conventional light sources.

## References

1. Integrated Authority File
2. Virtual International Authority File
3. Quora