High-power optical photovoltaic transmission: towards a new paradigm
High-power optical transmission (HPOT) holds transformative potential for revolutionizing energy delivery,
offering a groundbreaking leap forward in how power is supplied and accessed. By utilizing a monochromatic
light source as emitter and an optical photovoltaic converter as receiver, HPOT systems enable the sustainable
transfer of kilowatts of power over hundreds of kilometers, overcoming the limitations of conventional copper
wiring. This technology unlocks an extensive range of applications, from underwater environments to outer
space, while driving disruptive advances in strategic fields such as energy supply, defense, communications, and
healthcare. This work provides a comprehensive review of HPOT systems, including both optical wireless power
transmissions and power-over-fiber systems. It begins with a historical overview and a description of the key
performance indicators of the technology, followed by an evaluation of suitable high-power light sources. Then,
the physical phenomena affecting light propagation are examined, as well as tracking mechanisms and safety
measures that must be considered. Next, the photovoltaic receiver is analyzed in terms of intrinsic and extrinsic
losses, and a comprehensive compilation of state-of-the-art performance results is presented. Finally, terrestrial
and space prospective applications are explored, along with a survey of HPOT demonstrations conducted to date.
Through a detailed research of the advantages, challenges, and key achievements of HPOT technology, this
review aims to provide valuable insights to accelerate its development and adoption, paving the way for a more
connected and sustainable future.
Palabras clave: power converter
Publicación: Artígo
1752056318982
9 de xullo de 2025
/research/publications/high-power-optical-photovoltaic-transmission-towards-a-new-paradigm
High-power optical transmission (HPOT) holds transformative potential for revolutionizing energy delivery,
offering a groundbreaking leap forward in how power is supplied and accessed. By utilizing a monochromatic
light source as emitter and an optical photovoltaic converter as receiver, HPOT systems enable the sustainable
transfer of kilowatts of power over hundreds of kilometers, overcoming the limitations of conventional copper
wiring. This technology unlocks an extensive range of applications, from underwater environments to outer
space, while driving disruptive advances in strategic fields such as energy supply, defense, communications, and
healthcare. This work provides a comprehensive review of HPOT systems, including both optical wireless power
transmissions and power-over-fiber systems. It begins with a historical overview and a description of the key
performance indicators of the technology, followed by an evaluation of suitable high-power light sources. Then,
the physical phenomena affecting light propagation are examined, as well as tracking mechanisms and safety
measures that must be considered. Next, the photovoltaic receiver is analyzed in terms of intrinsic and extrinsic
losses, and a comprehensive compilation of state-of-the-art performance results is presented. Finally, terrestrial
and space prospective applications are explored, along with a survey of HPOT demonstrations conducted to date.
Through a detailed research of the advantages, challenges, and key achievements of HPOT technology, this
review aims to provide valuable insights to accelerate its development and adoption, paving the way for a more
connected and sustainable future. - Pablo Sanmartín, Eduardo F. Fernández , Antonio García-Loureiro, Florencia Almonacid - 10.1016/j.rser.2025.116031
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