Modern solar sail spacecraft designs, like NanoSail-D or the Japanese interplanetary spacecraft IKAROS, rely on the small but continuous pressure from sunlight itself for thrust.
现代太阳帆航天器的设计,如纳米帆- D或者日本的行星飞船IKAROS,是以很少但是持续的太阳光为推动力。
Solar sail spacecraft dynamic modeling and solving are the basis of attitude control and structural vibration suppression, and they are of important theoretical and engineering significance.
太阳帆航天器动力学建模与求解是姿态控制与结构振动抑制的基础,具有重要的理论与工程意义。
In an unusual take on a self-portrait, a camera aboard Japan's Ikaros spacecraft separated from the main body on June 15 to snap this first picture of the craft's fully deployed solar sail.
在这张不寻常的自拍照片,一台照相机按装在日本的伊卡洛斯飞船上,此飞船于6月15日与其主体脱离后,拍摄了第一张全部展开的太阳帆照片。
Right now, one key technological problem for solar-sail spacecraft lies in how to efficiently unroll solar sails in space.
目前,光帆飞船的一个关键性技术难题在于如何在太空中高效地展开太阳帆。
The Planetary Society would be taking baby steps to build and fly a series of solar-sail spacecraft.
行星协会将进行初期的实验,建造并试飞一系列这样的光帆飞船。
The theory of solar-sail spacecraft is not complicated.
光帆飞船的原理并不复杂。
Taking weight control and space radiation into consideration, the only passengers on a solar-sail spacecraft were likely to be robots or genomes.
出于对重量控制和太空辐射等方面的考虑,光帆飞船上唯一的乘客只可能是机器人或者基因组。
Taking weight control and space radiation into consideration, the only passengers on a solar-sail spacecraft were likely to be robots or genomes.
出于对重量控制和太空辐射等方面的考虑,光帆飞船上唯一的乘客只可能是机器人或者基因组。
应用推荐