阿里安运载火箭推进系统的下一步改进

一、引论阿里安运载火箭下一步改进的目标是:——对于进入转移轨道的双星发射,有效载荷能力约增加20%(2×900公斤);——对于进入低轨道的重型卫星,可将有效载荷提高约50～100%(7～10吨);——降低每公斤有效载荷入轨的发射费用;——进一步发展可用于未来空间计划的技术。     

毫米波雷达的原理与应用(一)

历来最为流行的雷达工作频率都在电磁频谱上约300兆赫和35千兆赫之间,这一区域基本上包括了特高频和超高频段。然而,除远程超视距雷达以外,大多数现代雷达都工作在特高频段的高端,更为可能的是工作在超高频段的某些频率上,典型值在1千兆赫和35千     

飞行安全基金会主席谈航空安全的未来发展与挑战

本文摘译自安全基金会(FSF)主席斯图亚特·马修斯的一篇报告。他从全球航空运输未来20年的发展角度阐述了航空安全所面临的压力以及应采取的对策     

Vestibular function in the space environment

Adaptation to the weightless state and readaptation after space flight to the 1-G environment on the ground are accompanied by various transitory symptoms of vestibular instability, kinetosis, and illusory sensations. Aside from the problem of how to treat and if possible prevent such symptoms, they offer a clue to a better understanding of normal vestibular functions. Weightlessness is a powerful new "tool" of vestibular research. Graybiel reported as early as 1952 that human subjects observed the illusion that a real target and the visual afterimage seemed to raise in the visual field during centrifugation when the subjects were looking toward the axis of rotation (oculogravic illusion). In aircraft parabolic-flight weightlessness, human subjects observed that fixed real targets appeared to have moved downward while visual afterimages appeared to have moved upward (oculoagravic illusion). It can be shown by electronystagmography as well as by a method employing double afterimages that part of this illusion is caused by eye movements that are triggered by the changing input from the otolith system. Another part of the illusion is based on a change of the subjective horizontal and must be caused by convergence of vestibular and visual impulses "behind" the eyes. This part was measured independently of the first one by using a new method. Eye movements could be prevented during these experiments by optical fixation with the right eye on a target at the end of a 24-in. long tube which was rigidly attached parallel to the longitudinal axis of an aircraft. At the same time the subject tried to line up a shorter tube, which was pivoting around his left eye, with the subjective horizon.     

Artificial gravity: a possible countermeasure for post-flight orthostatic intolerance

Four payload crewmembers were exposed to sustained linear acceleration in a centrifuge during the Neurolab (STS-90) flight. In contrast to previous studies, otolith–ocular reflexes were preserved during and after flight. This raised the possibility that artificial gravity may have acted as a countermeasure to the deconditioning of otolith–ocular reflexes. None of the astronauts who were centrifuged had orthostatic intolerance when tested with head-up passive tilt after flight. Thus, centrifugation may also have helped maintain post-flight hemodynamic responses to orthostasis by preserving the gain of the otolith–sympathetic reflex. A comparison with two fellow Neurolab orbiter crewmembers not exposed to artificial gravity provided some support for this hypothesis. One of the two had hemodynamic changes in response to post-flight tilt similar to orthostatically intolerant subjects from previous missions. More data is necessary to evaluate this hypothesis, but if it were proven correct, in-flight short-radius centrifugation may help counteract orthostatic intolerance after space flight.     

Vanguard--a European robotic astrobiology-focussed Mars sub-surface mission proposal

We present a new European Mars mission proposal to build on the UK-led Beagle2 Mars mission and continue its astrobiology-focussed investigation of Mars. The small surface element to be delivered to the Martian surface--Vanguard--is designed to be carried by a Mars Express-type spacecraft bus to Mars and adopts a similar entry, descent and landing system as Beagle2. The surface element comprises a triad of robotic devices--a lander, a micro-rover of the Sojourner class for surface mobility, and three ground-penetrating moles mounted onto the rover for sub-surface penetration to 5 m depth. The major onboard instruments on the rover include a Raman spectrometer/imager, a laser plasma spectrometer, an infrared spectrometer--these laser instruments provide the basis for in situ "remote" sensing of the sub-surface Martian environment within a powerful scientific package. The moles carry the instruments' sensor head array to the sub-surface. The moles are thus required to undergo a one-way trip down the boreholes without the need for recovery of moles or samples, eliminating much of the robotic complexity invoked by such operations.     

COSAC onboard Rosetta: a bioastronomy experiment for the short-period comet 67P/Churyumov-Gerasimenko

The COSAC (Cometary Sampling and Composition Experiment) onboard the Rosetta mission is a combined gas chromatograph (GC)-mass spectrometer (MS). It is situated on Philae, the lander of the mission, which is intended to land on the nucleus of comet 67P/Churyumov- Gerasimenko. The purpose of the experiment is to analyze the volatile fraction of soil samples retrieved by a drill. For investigation, the samples will be pyrolysed, and the emanating gases fed into a GC, into an MS, or the combination of both. In the first part of this paper, the bioastronomical relevance of such measurements is outlined. In the second part the details of the hardware and its performance are described.     

DSP:太空观察哨

美国最早的一批侦察卫星属于国防支持计划(DSP)系列,也是目前卫星清单中最老的系列,它们曾经检测到一些不明飞行物.拥有并操纵这批卫星的美国空军一直把这些不明飞行物归纳为“有效的红外光源”,并签定了若干合同来深入研究这种现象.究竟有没有确切的资料来证实上面的说法呢?我认为是有的.在几位天体物理学家的帮助下,我用在大学学过的高等物理学和高等数学进行了一     

“双子座7”号：教训与传奇

“双子座”航天飞机计划的核心目的是进一步完善轨道会合及对接技术，为登上月球可能会用到的月球轨道会合技术提供数据支持。1966年年底。这一技术难题已经被完美解决，可是后来的研究者已经忘了这项研究的最初目的。