scholarly journals Physics of fusion pumped lasers

1989 ◽  
Vol 7 (3) ◽  
pp. 443-447
Author(s):  
D. S. Pappas
Keyword(s):  
High Power ◽  
High Efficiency ◽  
Mean Free Path ◽  
High Energy ◽  
Rare Gas ◽  
Energy Converter ◽  
High Power Lasers ◽  
Light Production ◽  
Fusion Neutrons ◽  
Novel Concept

A novel concept is described which utilizes a liquified rare gas as both an energy converter and high-density lasing media. The concept allows the advantage of the large mean-free path of high energy fusion neutrons together with a highly-efficient mechanism for volumetric production of 1 MeV electrons which causes ionization and excitation throughout the medium. This scheme coupled together with the high efficiency for light production of liquid excimers may provide the possibilities for a new dimension in high power lasers.

How to efficiently utilize electrode materials in supercapattery?

2019 ◽  
Vol 12 (01) ◽  
pp. 1830005 ◽  
Author(s):  
Kunfeng Chen ◽  
Dongfeng Xue
Keyword(s):  
High Power ◽  
Electrode Material ◽  
Redox Reaction ◽  
Electrode Materials ◽  
High Efficiency ◽  
Storage System ◽  
High Energy ◽  
Structure Design ◽  
High Energy Density ◽  
Charging Time

Theoretical stored capacity of one electrode material is decided by their thermodynamics factors, which can be achieved only when electrode materials fully react at quite long charging time. In order to store large quantities of charges in short charging time, high-efficiency utilization of electrode materials becomes more and more important. Both fast ionic and electronic transports represent the fundamental factor for high-efficiency utilization of electrode materials. Supercapattery, showing both high power density and high energy density, includes supercapattery-type electrode materials, leading to fast redox reaction. This paper focuses on the structure design of supercapattery-type electrode materials and electrode to satisfy dynamic demand for fast redox reaction of one electrode material. The use of redox active cations and the construction of active colloidal supercapatteries are described. This work will give enlightenment to design electrochemical energy storage system for high-power and high energy applications.

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