The Hubble Deep Field

Robert E. Williams
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引用次数: 2

Abstract

Great progress has been made in recent years in understanding the large-scale structure of the universe. Recall that it is only within this century that we have even come to realize the existence of other galaxies as separate entities. Until the 1920’s the universe did not extend beyond the Milky Way. Novae and Cepheid variables changed that picture, and for the past 75 years extragalactic astronomy has been one of the most active and fertile areas of science. The concept of an expanding universe and its beginning in a Big Bang all derive from the discovery of external galaxies. Distant galaxies are faint and have small angular sizes, therefore their study has remained the province of the largest telescopes. Before the launch of Hubble Space Telescope, ground-based telescopes had succeeded in detecting distant galaxies out to redshifts of z ~ 1, and in establishing certain of their characteristics. But, there was uncertainty as to how much further HST could push the study of distant galaxies given its modest 2.4m diameter mirror and the fact that the surface brightnesses of cosmologically distant objects decrease as (1 + z) 4 . For this reason, one of the early observations that was scheduled immediately after the first servicing mission of HST in December 1993 to repair spherical aberration was the re-imaging of the cluster of galaxies 0939+4713 at z = 0.4 that had been observed previously by Dressier et al. (1994) from both the ground and with the aberrated HST. The ten-orbit WFPC2 image demonstrated HST’s ability to resolve structure in distant galaxies, showing spiral and elliptical galaxies with a clarity approaching that achieved for the Coma cluster from the ground. Spirals are seen to be relatively abundant in 0939+4713, although they generally show an anomalous morphology.
哈勃深空
近年来,在了解宇宙的大尺度结构方面取得了很大的进展。回想一下,直到本世纪,我们才意识到其他星系作为独立实体的存在。直到20世纪20年代,宇宙才延伸到银河系之外。新星和造父变星改变了这一图景,在过去的75年里,星系外天文学一直是最活跃、最丰富的科学领域之一。宇宙膨胀的概念以及宇宙大爆炸的起源都源于对外部星系的发现。遥远的星系是暗淡的,角尺寸很小,因此它们的研究仍然是最大的望远镜的领域。在哈勃太空望远镜发射之前,地面望远镜已经成功地探测到z ~ 1红移的遥远星系,并确定了它们的某些特征。但是,考虑到HST的镜面直径只有2.4m,而且宇宙中遥远天体的表面亮度减小为(1 + z) 4, HST能在多大程度上推动对遥远星系的研究还不确定。由于这个原因,在1993年12月HST第一次维修任务后立即安排的早期观测之一是对z = 0.4处的0939+4713星系团进行重新成像,该星系团之前由Dressier等人(1994)从地面和用像差的HST观测到。十轨道WFPC2的图像证明了HST在遥远星系中分辨结构的能力,显示出螺旋星系和椭圆星系的清晰度接近于从地面上观察后发星团的清晰度。螺旋星系在0939+4713中相对丰富,尽管它们通常表现出异常的形态。
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