Your search keyword '"Paolo Molaro"' showing total 4 results

1. Thomas Harriot at the National Gallery?

Author

Paolo Molaro

Subjects

History of astronomy, Space and Planetary Science, media_common.quotation_subject, Art history, Astronomy and Astrophysics, Art, media_common

Published

2017

2. ESPRESSO: The next European exoplanet hunter

Author

C. Lovis, M. Amate, Olaf Iwert, B. Delabre, V. Baldini, M. Affolter, Giorgio Toso, Hans Dekker, V. De Caprio, Nuno C. Santos, Florian Kerber, L. Genolet, I. Hughes, Igor Coretti, Matteo Aliverti, P. Di Marcantonio, Filippo Maria Zerbi, C. Broeg, Rafael Rebolo, Eros Vanzella, M. R. Zapatero Osorio, Paolo Molaro, Guido Cupani, J.-L. Lizon, Valentina D'Odorico, P. Spano, Charles Maire, S. Galeotta, Marco Landoni, Gerardo Avila, J. L. Rasilla, Marco Riva, S. Santana Tschudi, Ricardo Gomes, Paul Bristow, Pedro Figueira, Pedro Santos, Alexandre Cabral, D. Mégevand, Matteo Viel, Francesco Pepe, João Coelho, Roberto Cirami, F. Tenegi, A. Fragoso, C. Allende Prieto, Danuta Sosnowska, Carlos Martins, Antonio Cesar de Oliveira, M. A. Monteiro, Reinhold J. Dorn, J. I. González Hernández, S. G. Sousa, Stefano Cristiani, Manuel Abreu, Ennio Poretti, M. Mannetta, and Paolo Conconi

Subjects

Physics, Espresso, Optics, Space and Planetary Science, business.industry, Astronomy, Astronomy and Astrophysics, Instrumentation (computer programming), business, Spectrograph, Exoplanet

Abstract

Departamento deFsica eAstronomia, Faculdade Cincias, Universidade do Porto,Rua das Estrelas, 4150-762PortugalReceived2013 Aug 29, accepted 2013 Nov1Published online 2014 Jan 15Keywords instrumentation: spectrographs –plantary systems –techniques: spectroscopicThe acronym ESPRESSO stems for Echelle SPectrograph for RockyExoplanets and Stable Spectroscopic Observations;this instrument will be the next VLThigh resolution spectrograph. The spectrograph will be installed at the Combined-CoudeL´ aboratory of the VLTand linked to the four 8.2mUnit Telescopes (UT) through four optical Coudet´ rains.ESPRESSO will combine efficiencyand extreme spectroscopic precision. ESPRESSO is foreseen to achieve again oftwomagnitudes with respect to its predecessor HARPS, and to improve the instrumental radial-velocity precision to reachthe 10 cms

Published

2014

3. Fundamental constants and high-resolution spectroscopy

Author

Giovanni Vladilo, Miriam Centurion, Sebastian Lopez, S. D'Odorico, Hadi Rahmani, Patrick Petitjean, Piercarlo Bonifacio, Dieter Reimers, Michael T. Murphy, S. A. Levshakov, Paolo Molaro, I. I. Agafonova, T. M. Evans, Raghunathan Srianand, J. Whitmore, Martin Wendt, and Carlos Martins

Subjects

Physics, Wavelength, Absorption spectroscopy, 13. Climate action, Space and Planetary Science, Astronomy and Astrophysics, Quasar, Atomic physics, Mass ratio, Absorption (electromagnetic radiation), Spectroscopy, Spectral line, Dimensionless quantity

Abstract

Absorption-line systems detected in high resolution quasar spectra can be used to compare the value of dimensionless fundamental constants such as the fine-structure constant, α, and the proton-to-electron mass ratio, μ = mp/me, as measured in remote regions of the Universe to their value today on Earth. In recent years, some evidence has emerged of small temporal and also spatial variations in α on cosmological scales which may reach a fractional level of ≈ 10 ppm (parts per million). We are conducting a Large Programme of observations with the Very Large Telescope's Ultraviolet and Visual Echelle Spectrograph (UVES), and are obtaining high-resolution (R ≈ 60000) and high signal-to-noise ratio (S/N ≈ 100) spectra calibrated specifically to study the variations of the fundamental constants. We here provide a general overview of the Large Programme and report on the first results for these two constants, discussed in detail in Molaro et al. (2013) and Rahmani et al. (2013). A stringent bound for Δα /α is obtained for the absorber at zabs = 1.6919 towards HE 2217-2818. The absorption profile is complex with several very narrow features, and is modeled with 32 velocity components. The relative variation in α in this system is +1.3 ± 2.4stat ± 1.0sys ppm if Al II λ 1670 A and three FeII transitions are used, and +1.1 ± 2.6stat ppm in a slightly different analysis with only FeII transitions used. This is one of the tightest bounds on α -variation from an individual absorber and reveals no evidence for variation in α at the 3-ppm precision level (1σ confidence). The expectation at this sky position of the recently-reported dipolar variation of α is (3.2–5.4) ± 1.7 ppm depending on dipole model used and this constraint of Δα /α at face value is not supporting this expectation but not inconsistent with it at the 3σ level. For the proton-to-electron mass ratio the analysis of the H2 absorption lines of the zabs ≈ 2.4018 damped Lyα system towards HE 0027–1836 provides Δμ /μ = (–7.6 ± 8.1stat ± 6.3sys) ppm which is also consistent with a null variation. The cross-correlation analysis between individual exposures taken over three years and comparison with almost simultaneous asteroid observations revealed the presence of a possible wavelength dependent velocity drift as well as of inter-order distortions which probably dominate the systematic error and are a significant obstacle to achieve more accurate measurements. (© 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim)

Published

2014

4. Possible portrait of Galileo Galilei as a young scientist

Author

Paolo Molaro

Subjects

Physics, Painting, symbols.namesake, Portrait, Space and Planetary Science, Galileo (satellite navigation), symbols, Art history, Astronomy and Astrophysics, Biography, Young scientist

Abstract

We describe here the possible discovery of a portrait of Galileo Galilei in his youth. The painting is not signed and the identification is mainly physiognomic. In fact, the face reveals clear resemblance to Domenico Tintoretto's portrait and to Giuseppe Calendi's engraving derived from a lost portrait made by Santi di Tito in 1601. Along with the portraits by Tintoretto, Furini, Leoni, Passignano, and Sustermans this could be another portrait of Galileo made al naturale, but, unlike the others, it depicts the scientist before he reached fame. Galileo looks rather young, at age of about 20–25 years. His eyes in the portrait are clear and the expression intense and appealing. From Galileo's correspondence we know of a portrait made by his friend Ludovico Cigoli. Rather interesting, though admittedly quite improbable, is the possibility of a self-portrait whose existence is mentioned in the first biography of Galileo by Salusbury in 1664 (© 2011 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim)

Published

2012