Space Solar Power and Wireless Transmission

Open access

ISSN: 2950-1040

Space Solar Power and Wireless Transmission

Open access

Space solar power science and technology is an interdisciplinary field of energy and aerospace technology. It involves key technologies such as space solar power station system, as well as long-distan...

Space solar power science and technology is an interdisciplinary field of energy and aerospace technology. It involves key technologies such as space solar power station system, as well as long-distance and efficient wireless power transmission. There are hundreds of scientific research institutions and universities globally engaged in research in related fields; however, there is a lack of journals with a focus on space solar power science.

To that end, the Journal of Space Solar Power and Wireless Transmission (SSPWT) was launched with the aim to feature the latest scientific and technological achievements in the intersection of energy and aerospace technology, and to serve as a high-level academic exchange platform for experts and scholars.

SSPWT welcomes original high-quality submissions associated with aerospace science and space physics, electrical engineering, laser, machinery, control, materials, microelectronics, optoelectronics, etc.

Areas of interest include but are not limited to:

  • Space solar power system design

  • Space electric power system

  • Microwave power transmission

  • Laser power transmission

  • Construction and control of space structures

  • Photovoltaic conversion

  • Energy storage in space

  • Devices and materials for high-efficiency power conversion

  • Mutual interactions between ionosphere/atmosphere and microwave/laser power beams

  • Environmental and bio-electromagnetic effects of space solar power system

  • Innovation and application of space solar power

  • Policy and safety issues related to space solar power

Editorial Board

1. Wireless laser power transmission: Recent progress and future challenges

2. Wireless power transmission based on retro-reflective beamforming technique

3. Case studies on space solar power in Korea

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