This plot of infrared data, called a spectrum, shows the strong
signature of water vapor deep within the core of an embryonic star system,
called NGC 1333-IRAS 4B.
The data were captured by NASA's Spitzer Space Telescope using an
instrument called a spectrograph. A spectrograph collects light and sorts
it according to color, or wavelength. In this case, infrared light from
NGC 1333-IRAS 4B was broken up into the wavelengths listed on the
horizontal axis of the plot. The sharp spikes, called spectral lines,
occur at wavelengths at which the stellar object is particularly bright.
The signature of water vapor is revealed in the pattern of wavelengths at
which the spikes appear.
By comparing the observed data to a model (lower curve), astronomers can
also determine the physical and chemical details of the region. For
example, astronomers say these data suggest that ice in a cocoon
surrounding the forming star is falling inward. The ice then smacks
supersonically into a dusty planet-forming disk surrounding the stellar
embryo, heats up and vaporizes quickly, releasing the infrared light that
Spitzer collected.