Simple Multipurpose Cryostat for Experiments Using High Magnetic Field
スポンサーリンク
概要
- 論文の詳細を見る
In order to study the effect of the strong magnetic field of liquid oxygen, we constructed a simple cryostat in which a split-type superconducting magnet is incorporated. The structure and operation of the cryostat are simple, and direct observation of specimens under strong magnetic field is easy. The maximum magnetic field strength of the system is 7 T, and the space available for experiments is approximately 50 mmΦ × 100 min. Furthermore, since the range of temperatures for experiments is broad, between 2 K and 300 K, the system is suitable for the study of the effects of strong magnetic field on the characteristics of the interface, and on pattern formation in systems not only in cryofluids but also in other materials.
- 社団法人応用物理学会の論文
- 1996-01-15
著者
-
TAKEDA Minoru
Kobe University of Mercantile Marine
-
NISHIGAKI Kazu
Kobe University of Mercantile Marine
関連論文
- Influence of NaCl Concentration on the Gas-Liquid Interface Deformation of Water in Magnetic Fields : Review Papers
- Deformation of the Liquid Oxygen Meniscus Induced by Magnetic Field
- Measurements of the Surface Tension of Liquid Oxygen in High Magnetic Fields
- The Superheat-Limit of Liquid Oxygen and Nitrogen at 1 atm
- Mechanism of the Inception of Hydraulic Cavitation
- Ultrasonic Study of Critical Mixing of n-Heptane and Nitrobenzene
- Simple Multipurpose Cryostat for Experiments Using High Magnetic Field
- Universal Plot of the Ratio of Sound Dispersion to Attenuation for Critical Fluids
- Nucleation in Superheated ^3He : I. QUANTUM LIQUIDS AND SOLIDS : Liquid ^4He and ^3He-^4He
- Turbulence Dependence of Vaporous Cavitation in Oxygen Jet
- An Empirical Law of the Critical Superheating of Liquids
- Superheat Limit of ^4He and Its Quantum Deviation from Classical Behavior
- Sound Dispersion in a Critical Mixture Aniline-Cyclohexane
- Gas–Liquid Interface Deformation of Flowing Water in Gradient Magnetic Field —Influence of Flow Velocity and NaCl Concentration