His scientific interests lie mostly in Astrophysics, Molecular cloud, Extinction, Galaxy and Astronomy. Stars, Dark matter, Sky, Galaxy cluster and Star formation are among the areas of Astrophysics where the researcher is concentrating his efforts. Marco Lombardi focuses mostly in the field of Molecular cloud, narrowing it down to matters related to Near-infrared spectroscopy and, in some cases, Extinction and Scale.
Marco Lombardi has researched Extinction in several fields, including Planck and Power law. His study in Galaxy focuses on Redshift in particular. As a member of one scientific family, Marco Lombardi mostly works in the field of Astronomy, focusing on Wide field and, on occasion, Turbulence and Wavelength.
His primary scientific interests are in Astrophysics, Galaxy, Astronomy, Molecular cloud and Galaxy cluster. His study in Astrophysics focuses on Redshift, Weak gravitational lensing, Star formation, Extinction and Dark matter. His Extinction research includes themes of Sky, Core and Nebula.
Marco Lombardi works mostly in the field of Galaxy, limiting it down to concerns involving Cluster and, occasionally, Halo. His Molecular cloud study combines topics in areas such as Infrared, Power law, Near-infrared spectroscopy and Young stellar object. His work carried out in the field of Galaxy cluster brings together such families of science as Multi Unit Spectroscopic Explorer, Surface brightness and Supernova.
Marco Lombardi focuses on Astrophysics, Cluster, Galaxy, Redshift and Galaxy cluster. His Molecular cloud, Dark matter, Multi Unit Spectroscopic Explorer, Young stellar object and Stars investigations are all subjects of Astrophysics research. His Molecular cloud research integrates issues from Deconvolution, Field, Inference, Extinction and Photometry.
His work deals with themes such as Mass distribution and Deep learning, Artificial intelligence, which intersect with Cluster. His research integrates issues of Spatial distribution and Spectral index in his study of Galaxy. His Redshift research is multidisciplinary, incorporating elements of Supernova and Core.
Marco Lombardi mainly investigates Astrophysics, Cluster, Galaxy, Dark matter and Galaxy cluster. His Astrophysics study frequently draws connections between related disciplines such as Extinction. His work focuses on many connections between Cluster and other disciplines, such as Multi Unit Spectroscopic Explorer, that overlap with his field of interest in Sample and Galaxy formation and evolution.
His work is connected to Redshift and Velocity dispersion, as a part of Galaxy. His study explores the link between Redshift and topics such as Supernova that cross with problems in Dark energy, Spiral galaxy and Hubble's law. Marco Lombardi has included themes like Surface brightness and Mass distribution in his Dark matter study.
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Euclid Definition Study Report
N. Shane;J.~-. Starck;C. Surace;A. Taylor.
arXiv: Cosmology and Nongalactic Astrophysics (2011)
On the Star Formation Rates in Molecular Clouds
Charles J. Lada;Marco Lombardi;João F. Alves.
The Astrophysical Journal (2010)
The mass function of dense molecular cores and the origin of the IMF
J. Alves;M. Lombardi;C. J. Lada.
Astronomy and Astrophysics (2007)
Mapping the interstellar dust with near-infrared observations: An optimized multi-band technique
Marco Lombardi;João Alves.
Astronomy and Astrophysics (2001)
Euclid Definition Study Report
R. Laureijs;J. Amiaux;S. Arduini;J.-L. Auguères.
Euclid Consortium (2011)
Star Formation Rates in Molecular Clouds and the Nature of the Extragalactic Scaling Relations
Charles J. Lada;Jan Forbrich;Marco Lombardi;João F. Alves.
The Astrophysical Journal (2012)
The COMPLETE Survey of star-forming regions: Phase I data
Naomi A. Ridge;James Di Francesco;Helen Kirk;Helen Kirk;Di Li;Di Li.
The Astronomical Journal (2006)
Hipparcos distances of Ophiuchus and Lupus cloud complexes
M. Lombardi;C. Lada;J. Alves.
arXiv: Astrophysics (2008)
The Nature of the Dense Core Population in the Pipe Nebula: Thermal Cores Under Pressure
Charles J. Lada;A. A. Muench;J. Rathborne;João F. Alves.
The Astrophysical Journal (2008)
CLASH-VLT: The mass, velocity-anisotropy, and pseudo-phase-space density profiles of the z=0.44 galaxy cluster MACS 1206.2-0847
A. Biviano;P. Rosati;I. Balestra;A. Mercurio.
arXiv: Cosmology and Nongalactic Astrophysics (2013)
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