The Ultra
Deep Field observations, taken by the Advanced Camera for Surveys, represent a narrow, deep view of the cosmos.
Not exact matches
Field observations and on - site buyer interviews are crucial to getting the
deepest profound insight.
The original HUDF images were pioneering
deep -
field observations with the NASA / ESA Hubble Space Telescope published in 2004.
The Hubble
Deep Field (HDF) is an image of a small region of the sky, based on the results of a series of
observations by the Hubble Space Telescope.
Subsequent sensitive
observations such as Hubble's Ultra
Deep Field revealed a myriad of faint galaxies.
The results of their
observations are
deep, super wide -
field images of the galaxies and their populations of young stars.
Field observations of microbes recovered from
deep drill cores,
deep mines, and the ocean floor, coupled with laboratory investigations, reveal that microbial life can exist at conditions of extreme temperatures (to above 110ºC) and pressures (to > 10,000 atmospheres) previous thought impossible.
Searching for the 3.5 keV line in the
deep fields with Chandra: the 10 Ms
observations.
Hubble's eXtreme
Deep Field image combines a decade of Hubble
observations, including some taken in infrared light, to create one of the
deepest pictures of the universe ever taken, spanning 13.2 billion years of galaxy formation.
We have detected, as well as strong diffuse emission, 274 new point X-ray sources (4 sigma confidence) within two partially overlapping
fields (~ 250 arcmin ^ 2 in total) down to the flux limit ~ 3 x 10 ^ -LCB--1... ▽ More Using the Chandra ACIS - I instruments, we have carried out a
deep X-ray
observation on the Galactic plane region at (l, b) ~ (28.5, 0.0), where no discrete X-ray sources have been known previously.
Photographed about eight days after it exploded, Supernova 1997ff (SN1997ff) was found by astronomers comparing the northern Hubble
Deep Field, a 10 - day
observation of a tiny region of sky first explored by the Hubble Space Telescope in 1995, with a follow - up
observation in 1997.
Deep meaning into any science
field is gained much further by
observation, no theory is proven without
observations, to really criticize the mainstream you must look for something which contradicts AGW claims.
The motivation for this paper is twofold: first, we validate the model's performance in the Gulf of Mexico by comparing the model
fields to past and recent
observations, and second, given the good agreement with the observed Gulf of Mexico surface circulation and Loop Current variability, we expand the discussion and analysis of the model circulation to areas that have not been extensively observed / analyzed, such as the vertical structure of the Loop Current and associated eddies, especially the
deep circulation below 1500 m.