STUDI MORFOKINEMATIKA PLANETARY NEBULA SH 2-71 DENGAN PEMODELAN 3-D
A planetary nebula is formed when a low to intermediate mass star approaches the end of its life. Before the ejected materials finally being one with the insterstellar matters, a nebula will be visible surrounding its former stellar core. The variety of planetary nebulae visual appearances indic...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/57077 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | A planetary nebula is formed when a low to intermediate mass star
approaches the end of its life. Before the ejected materials finally being
one with the insterstellar matters, a nebula will be visible surrounding its
former stellar core. The variety of planetary nebulae visual appearances
indicate that the matters leave behind the central star in unique ways.
An idea which is always interesting about planetary nebulae is deducting
its actual three dimensional shape. Morphokinematics study aims to find
out the 3D shape using the help of imaging and spectroscopy. From
imaging of the planetary nebulae, one can observe the projection created
by the relative position of the planetary nebulae and the observer. On the
other hand, spectroscopy gives the ability to infer the expansion
characteristic from the spectrum it produced.
This thesis aims to determine the 3D shape of Sh 2-71 using images
obtained from Gemini Multi-Object Spectrograph (GMOS), and Hong
Kong/Australian Astronomical Observatory/Strasbourg Observatory Halpha
Planetary nebula (HASH PN) combined with high resolution long
slit spectra from San Pedro Martir Kinematic Catalogue of Planetary
Nebulae. The 3D modelling is carried out with a software specializes in
modelling three dimensional astrophyisical object SHAPE. The acquired
data from observations show that Sh 2-71 possesses a torus with three
bipolar lobes while modelling by SHAPE tells that the torus is inclined by
37o and the bipolar lobes are on the same plane.
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