Christian Marinoni

What is he best known for?

The fields of study he is best known for:

• Galaxy
• Astronomy
• Astrophysics

His primary areas of investigation include Astrophysics, Galaxy, Redshift, Astronomy and Galaxy formation and evolution. His work in Astrophysics tackles topics such as Spectrograph which are related to areas like Reduction and Observatory. His is involved in several facets of Galaxy study, as is seen by his studies on Stellar mass, Star formation, Active galactic nucleus, Luminosity function and Luminosity.

His Redshift research is multidisciplinary, incorporating elements of Spectral line, Extended Groth Strip and Photometry. Many of his studies on Astronomy apply to Sample as well. His research in Redshift survey intersects with topics in Peculiar velocity and Malmquist bias.

His most cited work include:

• Mass and environment as drivers of galaxy evolution in SDSS and zCOSMOS and the origin of the Schechter function (1450 citations)
• Mass and environment as drivers of galaxy evolution in SDSS and zCOSMOS and the origin of the Schechter function (1431 citations)
• Accurate photometric redshifts for the CFHT legacy survey calibrated using the VIMOS VLT deep survey (1225 citations)

What are the main themes of his work throughout his whole career to date?

His main research concerns Astrophysics, Galaxy, Redshift, Astronomy and Redshift survey. His Astrophysics study is mostly concerned with Galaxy formation and evolution, Luminosity, Luminosity function, Cosmology and Active galactic nucleus. His Galaxy research incorporates themes from Spectral line, Dark matter and Cluster analysis.

He has included themes like Magnitude, Dark energy and Stars, Photometry in his Redshift study. His studies in Dark energy integrate themes in fields like Gravitation, Planck, Cold dark matter and Effective field theory. His study explores the link between Redshift survey and topics such as Probability density function that cross with problems in Probability distribution.

He most often published in these fields:

• Astrophysics (115.30%)
• Galaxy (93.95%)
• Redshift (79.72%)

What were the highlights of his more recent work (between 2012-2018)?

• Astrophysics (115.30%)
• Redshift (79.72%)
• Galaxy (93.95%)

In recent papers he was focusing on the following fields of study:

His scientific interests lie mostly in Astrophysics, Redshift, Galaxy, Redshift survey and Dark energy. His Astrophysics research includes themes of Astronomy and Sigma. Christian Marinoni has researched Redshift in several fields, including Number density, Spectral density, Absolute magnitude, Luminosity and Sample.

Correlation function is closely connected to Dark matter in his research, which is encompassed under the umbrella topic of Galaxy. His study in Redshift survey is interdisciplinary in nature, drawing from both Sky, Stellar mass, COSMIC cancer database and Photometry. The Dark energy study combines topics in areas such as Gravitation, Planck, Cold dark matter and Effective field theory.

Between 2012 and 2018, his most popular works were:

• The DEEP2 Galaxy Redshift Survey: Design, Observations, Data Reduction, and Redshifts (583 citations)
• The VIMOS Public Extragalactic Redshift Survey (VIPERS) - Galaxy clustering and redshift-space distortions at z ≃ 0.8 in the first data release (294 citations)
• The VIMOS VLT Deep Survey final data release: a spectroscopic sample of 35 016 galaxies and AGN out to z ~ 6.7 selected with 17.5 ≤ iAB ≤ 24.75 (290 citations)

In his most recent research, the most cited papers focused on:

• Galaxy
• Astronomy
• Statistics

Christian Marinoni mainly focuses on Astrophysics, Galaxy, Redshift, Astronomy and Redshift survey. His Redshift research is multidisciplinary, incorporating elements of Stars, Data release, Universe and Sample. Christian Marinoni has researched Stars in several fields, including Active galactic nucleus and Sky.

His study in Luminous infrared galaxy and Elliptical galaxy are all subfields of Astronomy. His work carried out in the field of Redshift survey brings together such families of science as Absolute magnitude, Galaxy formation and evolution, Radio galaxy and Photometry. His Absolute magnitude research incorporates themes from Star formation and Luminosity.

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