Superconducting magnet

Superconducting magnet - Xiamen Dexing Magnet Tech. Co., Ltd. - image - 2

Superconducting magnet - Xiamen Dexing Magnet Tech. Co., Ltd. - image - 3

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Go to the Xiamen Dexing Magnet Tech. Co., Ltd. website for more information

Characteristics

Temperature

Max.: 2 K

Min.: 1.6 K

Description

Superconducting Magnet by Dexinmag is a range of cryogen-free and low-temperature superconducting magnet systems designed for scientific research, gyrotron applications, proton therapy and accelerator focusing systems.

Core technology and performance highlights

Magnetic field optimization design technology: Magnetic field uniformity (P-P): <8 PPM @ 50 cm DSV.
Dynamic magnetic technology: Magnet survives 20 g acceleration without damage and operates stably under 10 g impact.
Superconducting joint process: Magnetic field stability: <0.05 ppm/h.
Low-temperature system technology: Little-liquid and liquid-free low-temperature solutions, including 2 K low-temperature capability.
High-field composite superconducting technology: Standardized dry magnets from 2 T to 14 T; 15 T under R&D.

Gyrotron superconducting magnet

Core component of electron cyclotron resonance / electronic rotation resonance systems used in radar, electronic countermeasures, microwave weaponry and medical systems.
Extremely tight coaxiality requirement: same-axis deviation < 0.1 mm.
Product range includes 1 T – 9 T cryogen-free (no liquid helium) gyrotron superconducting magnets; customizable magnetic field positions available.

Scientific research superconducting magnet

Engineering experience of more than 15 years in superconducting solenoids (thread-tube type) capable of up to 14 T for standard bore designs.
Split-type superconducting magnets up to 7 T suitable for neutron scattering and spectroscopy experiments.
Vector magnets able to provide tilted or rotatable 2D/3D vector magnetic fields for advanced research needs.

Low-temperature strong magnetic system

Provides ultra-low temperature test environments (< 1.6 K).
Compatible with up to 14 T thread-tube superconducting magnets or multi-axis vector systems (e.g., 9 T / 1 T / 1 T configurations) and with various sample rods and test setups for measurements of transport, thermal, dielectric and magnetoelectric properties in strong magnetic fields.

Proton therapy superconducting magnet

Applied in proton and heavy-ion radiotherapy systems; Dexinmag supplies superconducting magnets for treatment gantries and related subsystems, focusing on miniaturized and lightweight magnet solutions.

Technical cases / representative products

4 T cryogen-free gyrotron superconducting magnet.
1.2 T gyrotron superconducting magnet.
8 T split-type cryogen-free superconducting magnet.
5 T cryogen-free superconducting magnet.
2 T cryogen-free superconducting magnet.
9 T cryogen-free superconducting magnet.

Company summary

Dexinmag masters core technologies in superconducting magnets and ultra-low temperature systems and has engineering experience in design and manufacturing for applications across military, medical, scientific instruments, semiconductor and large scientific facilities.

Caractéristiques / spécifications techniques

Magnetic field uniformity: <8 PPM (P-P) at 50 cm DSV.
Magnetic field stability: <0.05 ppm/hour.
Mechanical robustness: survives 20 g acceleration; stable under 10 g impact.
Low-temperature capabilities: little-liquid or liquid-free solutions; down to 2 K and systems offering <1.6 K test environment.
Standardized dry magnet range: 2 T – 14 T; R&D toward 15 T.
Gyrotron product field range: 1 T – 9 T (cryogen-free).
Split-type maximum: up to 7 T for split configurations.
Vector magnet configurations: multi-axis (2D/3D) vector fields; multi-field combinations e.g., 9 T / 1 T / 1 T.
Typical application domains: gyrotron/ECR sources, scientific research (neutron scattering, spectroscopy), proton/heavy-ion therapy, low-temperature strong-field measurements, accelerator focusing magnets.