The paper contains a review of recent advancements in rotating machines with bulk high-temperature superconductors (HTS). The high critical current density of bulk HTS enables us to design rotating machines with a compact configuration in a practical scheme. The development of an axial-gap-type trapped flux synchronous rotating machine together with the systematic research works at the Tokyo University of Marine Science and Technology since 2001 are briefly introduced. Developments in bulk HTS rotating machines in other research groups are also summarized. The key issues of bulk HTS machines, including material progress of bulk HTS, in situ magnetization, and cooling together with AC loss at low-temperature operation are discussed.
We studied a high-temperature superconducting synchronous motor assembled with melt-textured Gd-Ba-Cu-O bulk field magnets. The motor is an axial gap-type, brushless synchronous motor with eight rotating bulk field magnet poles. Liquid nitrogen is circulated to cool down the rotor components. Pulsed field magnetization was performed to excite the bulk field magnets by using a pair of the vortex-type armature copper windings under the zero-field cooling. The trapped peak field density on the surface of the bulk was varied from 0.5 T to 0.8 T. The trapped peak magnetic field 0.5 T on the surface of the bulk magnets provided the motor performance of 3.1 kW with 720 rpm. The field density distribution on the pole bulk magnet surface is anisotropic and different from the ideal conical shape. The optimized pulsed current waveform applied to the armature and the employing of a composite of bulk crystal magnets leading to a spatially homogeneous flux trapping are promising methods for reinforcement of the field flux from the rotor and the motor torque.Index Terms-High-temperature super-conducting motor, hightemperature superconductors, melt-processed bulk superconductors, melt-textured Gd123.
The triple-barrier coupled quantum dots have been fabricated in individual single-wall carbon nanotubes by depositing a narrow SiO2 layer in between metallic source–drain contacts. The current–voltage characteristics at 4.2 K with different gate voltages before the SiO2 deposition have indicated the formation of a single quantum dot. After the SiO2 deposition, the irregular Coulomb diamonds and the negative differential conductance have been observed, which suggests the formation of coupled quantum dots.
Rotating machines with high-temperature superconductors (HTS) usually consist of
pole-field magnets having coils wound with Bi-2223 HTS wire. We have successfully used
Gd–Ba–Cu–O bulk HTS in pole-field magnets in an axial-gap type rotating machine. These
HTS pole-field bulk magnets were assembled in the rotor plate. They are cooled down with
a liquid cryogen supplied via a rotary joint and circulated inside the rotor plate. The
present design provides a small air gap and a bulk HTS gives a high magnetic field around
the armature coils. Successful mechanical design has enabled us to magnetize the pole-field
bulk to more than 1 T by using a pulsed current applied to the copper armature coils.
These techniques imply the possibility of smaller and lighter rotating motors or generators
with a HTS bulk magnet for a sub-megawatt class propulsion system. We report several
essential techniques for both mechanical and cryogenic designs, and deduce the
characteristic features of the present axial-gap type machine using a HTS bulk magnet.
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