Scientific Research

Medical Research

Fabmann is committed to pushing the boundaries of science and technology. Our highly customized electromagnets, particle accelerators, and linear accelerators (LINACs) are important tools for researchers worldwide, enabling groundbreaking discoveries in physics, chemistry, biology, and materials science.

1. Electromagnets: Precision and Power for Advanced Research

Electromagnets are at the heart of many scientific experiments, providing precise and controllable magnetic fields that are critical for a wide range of applications.

Scientific Research:

Particle Physics, electromagnets are used in particle accelerators and colliders to steer, focus, and accelerate charged particles. They enable experiments that explore the fundamental building blocks of matter and the forces that govern them.

• √ Materials Science, electromagnets are used in research on magnetic materials, superconductors, and spintronics, helping scientists understand and develop new materials with unique properties.
• √ Nuclear Magnetic Resonance (NMR): NMR spectrometers use powerful electromagnets to study the structure and dynamics of molecules, providing insights into chemical reactions and biological processes.
• √ Plasma Physics, electromagnets are used in fusion research to confine and control plasma, bringing us closer to harnessing fusion energy as a clean and sustainable power source.

2. Particle Accelerators: Research of Universe

Particle accelerators are powerful tools for exploring the fundamental nature of matter, energy, and the universe. Our Particle Accelerators are designed to meet the demanding requirements of cutting-edge research.

Scientific Research:

• √ High-Energy Physics, particle accelerators like synchrotrons and colliders are used to study subatomic particles and their interactions, contributing to our understanding of the Standard Model of particle physics and beyond.
• √ Synchrotron Radiation: synchrotron light sources produce intense beams of X-rays and other radiation, enabling research in materials science, chemistry, biology, and environmental science.
• √ Medical Research, particle accelerators are used to produce radioisotopes for medical imaging and therapy, as well as to study the effects of radiation on biological systems.
• √ Accelerator Mass Spectrometry (AMS): AMS is used in archaeology, geology, and environmental science to measure trace isotopes and study historical and environmental processes.

3. LINACs (Linear Accelerators): Advancing Research and Innovation

Our Linear Accelerators (LINACs) are versatile tools used in scientific research to accelerate electrons and other charged particles for a variety of applications.

Scientific Research:

• √ Free-Electron Lasers (FELs): LINACs are used to drive FELs, which produce intense, coherent light pulses for research in physics, chemistry, biology, and materials science.
• √ Radiation Research: LINACs are used to study the effects of radiation on materials and biological systems, contributing to the development of radiation therapy and space exploration technologies.
• √ Particle Physics: LINACs are used as injectors for larger particle accelerators and colliders, providing the initial acceleration needed for high-energy experiments.
• √ Industrial and Applied Research: LINACs are used in materials testing, non-destructive evaluation, and the development of new technologies.

Why Choose Fabmann?

Our products are at the forefront of scientific research, enabling discoveries that expand our understanding of the universe and drive technological innovation. From exploring the fundamental forces of nature to developing new materials and technologies, we are proud to support researchers in their quest for knowledge.

Concept and design is very powerful if it's backed up by solid experience, our in-house design team is highly integrated with both production team and lab testing, and our team has solid experience in validating your models before making quotation. Due to this special capacity, we can make current choice for you regarding manufacturability, efficiency and repeatability, from the first stages of design to finished products. Fabmann works with various top notch material suppliers to develop customized electromagnet, particle accelerator and LINAC, and our engineers and designers can create solutions tailored to your specific application needs. Our product engineering team will make careful analysis of your application demand, and then select the appropriate materials, fabrication techniques, assembly solution and validation testing process for achieving superior performance, efficiency, and reliability compared to off-the-shelf options. Our mission is to deliver high precision customization service for demanding applications where precise control and optimized performance are critical.