2022
DOI: 10.1017/hpl.2022.1
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A high-pinning-Type-II superconducting maglev for ICF target delivery: main principles, material options and demonstration models

Abstract: Nowadays, the IFE researches related to noncontact positioning and transport of the free-standing cryogenic targets are playing an increasingly important role in this field. The operational principle behind these technologies is the magnetic acceleration of the levitating target carrier (or sabot) made from Type-II, high-temperature superconductors (HTSC). The physics of interaction between levitation, guidance and propulsion systems is based on a quantum levitation of high-pinning HTSCs in the mutually-normal… Show more

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Cited by 12 publications
(5 citation statements)
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“…When moving in a circle, the HTSC-sabot interacts with the PMG field (parameters in Figure 5), creating a force Fx to balance the centrifugal force Fc = mv 2 /R, where m is the sabot mass, v is its velocity, R is the radius of the circular trajectory. Using formula (1) and the results obtained in [6], the mechanical equilibrium equation of the HTSC-sabot running stably over the circular PMG can be written as:…”
Section: Results Of Experimental and Theoretical Modellingmentioning
confidence: 99%
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“…When moving in a circle, the HTSC-sabot interacts with the PMG field (parameters in Figure 5), creating a force Fx to balance the centrifugal force Fc = mv 2 /R, where m is the sabot mass, v is its velocity, R is the radius of the circular trajectory. Using formula (1) and the results obtained in [6], the mechanical equilibrium equation of the HTSC-sabot running stably over the circular PMG can be written as:…”
Section: Results Of Experimental and Theoretical Modellingmentioning
confidence: 99%
“…Researches in this area carried out at the Lebedev Physical Institute of Russian Academy of Sciences (LPI) are based on the effect of quantum levitation of HTSCs in a magnetic field (Figure 1a). Main principles, material options and demonstration models for a noncontact acceleration of IFE targets using HTSC-MAGLEV sys-tems are discussed in detail in [6]. A special emphasis was paid to creation of different PMG systems (or magnetic tracks), linear or circular ones.…”
Section: *Corresponding Authormentioning
confidence: 99%
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“…This is due to the fact that: ⎯ The FST-layering method works with free-standing and line-moving targets. A specific future here is the possibility to build a prototype of the FST-layering module, which must be integrated in an FST-production line operating in high-repetition-rate conditions [3,4]. In [13], the key elements of the FST-production line and their functional description are given in detail.…”
Section: Discussion Of the Obtained Resultsmentioning
confidence: 99%
“…The FST-layering method works with free-standing (or unmounted) and line-moving targets and allows one to fabricate large quantities of such targets and continuously inject them at the laser focus [3]. The FST-layering method is highly compatible with a new approach to the target delivery system based on noncontact target transport with levitation [4] which is a necessary condition for high-repetition-rate laser facilities. Below, we evaluate the prospects of the FST-layering method for in-line production of the SI-targets.…”
Section: Introductionmentioning
confidence: 99%