Astrofisica di frontiera con l’ottica adattiva italiana

17 Feb 2020, 09:30 → 19 Feb 2020, 17:00 Europe/Rome

Accademia Nazionale dei Lincei, Roma

Adriano Fontana (Istituto Nazionale di Astrofisica (INAF)), Enrico Pinna (Istituto Nazionale di Astrofisica (INAF)), Roberto Ragazzoni (Istituto Nazionale di Astrofisica (INAF))

 

 

Come è noto l'INAF ha un ruolo di leadership internazionale nel campo dell'ottica adattiva ed ha realizzato molti sistemi adattivi per grandi telescopi, come LBT e VLT, che sono patrimonio della comunità astronomica Italiana.

Per valorizzare fino in fondo questa ricerca tecnologica è fondamentale sviluppare la capacità della comunità astronomica di sfruttare fino in fondo le capacità, in parte ancora da scoprire sul campo, di questa nuova classe di strumentazione, sia dal punto di vista osservativo che modellistico e teorico.

Questo meeting, organizzato congiuntamente da INAF e Società Astronomica Italiana,  vuole essere un occasione di presentare e discutere le opportunità scientifiche e stimolare entro la comunità INAF all'uso di questi strumenti adattivi.

In molti casi lo sviluppo di questi strumenti si accompagna alla disponibilità di tempo garantito per la comunità italiana, di cui è necessario iniziare l'organizzazione pratica, specie per gli strumenti che sono relativamente prossimi alla prima luce (e.g. ERIS e i due SHARK).

Lo scopo del workshop è quello di:
- presentare i progetti strumentali, nelle varie fasi in cui si trovano, inclusi gli strumenti adattivi in fase di disegno per lo ELT;
- presentare i progetti scientifici già in corso o in preparazione;
- discutere della possibilità  che i membri della comunità italiana partecipino ai progetti stessi;
- diffondere una "cultura dell'AO" che renda più facile per i ricercatori italiani concepire programmi che ne facciano uso;
- valutare le varie sinergie che è possibile mettere in campo, sia tra i vari progetti, che con altri progetti non immediatamente di AO.

Il workshop prevede una serie di relazioni ad invito per introdurre lo stato dell'arte tecnologica e scientifica ma è aperto a contributi di tutti i ricercatori italiani.

La registrazione e la sottomissione di abstract per interventi orali e’ aperta fino al 20 gennaio 2020.
Non e’ previsto il pagamento di una quota di iscrizione.

Per ogni informazione non esitate a contattare il LOC all’indirizzo: ao2020@inaf.it

---

 

AO2020_poster.pdf

Monday, 17 February

Registrazione

Benvenuto: Adriano Fontana

The italian way to AO: Invited

1 Science with Adaptive Optics: flavors and constraints

While it is true that Adaptive Optics cancel out the effects of the atmospheric turbulence in astronomical observations, such simplifying statement carried along a number of possible schemes for the image degradation compensation (sometimes referred to as "flavors") and involves a number of further constraints, the sky coverage being one of the most prominent. I will try to make an overview of the existing and planned techniques, trying to emphasize the areas of possible involvement of the italian astronomy, and to sort out the additional constraints that adaptive optics observations pointing out their effectiveness for telescopes of different apertures.

Speaker: Roberto Ragazzoni (Istituto Nazionale di Astrofisica (INAF))

2 ERIS: the new 1-5µm Adaptive Optics Instrument extending and enhancing imaging and spectroscopy capabilities for VLT

The Enhanced Resolution Imager and Spectrograph (ERIS) is the new Adaptive Optics (AO) instrument for the VLT aiming to replace NACO and SINFONI. Its development is led by a Consortium of Max-Planck Institut fuer Extraterrestrische Physik (MPE), UK Astronomy Technology Centre, ETH Zurich, Leiden University, European Southern Observatory (ESO) and Istituto Nazionale di Astrofisica (INAF). ERIS will host a new high-resolution coronagraphic camera (NIX) ranging from 1 to 5 microns and SPIFFIER, a refurbishment of the Integral Field Unit spectrograph currently installed in SINFONI, covering J, H and K bands. ERIS will be installed at the Cassegrain focus of the VLT UT4, which is also hosting the Adaptive Optics Facility (AOF) sharing with ERIS the 1170-actuator Deformable Secondary Mirror and the Sodium Laser Facility. The ERIS AO system is developed by INAF with ESO’s collaboration, and provides a Natural Guide Star (NGS) mode to deliver high contrast correction and a Laser Guide Star (LGS) mode to extend high Strehl performance to large sky coverage, enabling observations from exoplanets to high redshift galaxies. INAF responsibility in ERIS project is not only limited on AO, but it is also extended to the supply of the on-board Calibration Unit (CU) and the leading of the Instrument Software development.
The ERIS structure is currently in Arcetr where the AO module and the CU have been integrated. AO module successfully passed the Acceptance in December 2019 and it is going to be shipped to MPE early February 2020 for the integration of NIX and SPIFFIER, before running the ESO formal acceptance process in Europe as a whole instrument, enabling the shipment to Paranal.
This contribution describes the instrument concept, outlines its expected AO performance, the related operational modes, and highlights where it will be mostly competitive.

Speaker: Dr Armando Riccardi (INAF-Osservatorio Astrofisico di Arcetri)

3 MAVIS: a Visible MCAO-equipped imager and spectrograph for the VLT

MAVIS is a multi-conjugate adaptive optics (MCAO) equipped system, designed to be coupled with the Very Large Telescope (VLT) Adaptive Optics Facility, with the aim to deliver visible images and integral field spectrograph data with 2-3x better angular resolution than the Hubble Space Telescope. The imager will deliver diffraction-limited image quality in the V band, in a 30”x30” field of view, with imaging from U to z bands and possibly exploiting fast cadence acquisition on a sub-section of the field. The current spectrograph baseline includes a selectable field-of-view of 2.5”x3.6”, or 5”x7.2”, with a spatial sampling of 25 or 50 mas respectively. This combination can deliver a spectral resolving power of R=5,000 to R=15,000, covering a wavelength range from 380 - 950 nm. The project is currently in its Phase-A study, which is being carried on by a consortium, led by Australian's AAO, and with a fundamental contribution by INAF, which is responsible for the Adaptive Optics Module design and is involved in the MAVIS science team.

Speaker: Valentina Viotto (Istituto Nazionale di Astrofisica (INAF))

Astrofisica_di_frontiera_AO_MAVIS_official.pdf

4 MAORY - MICADO : the winning combination for next generation diffraction limited observations

MAORY is the Adaptive Optics Module for the European Extremely Large Telescope (ELT).
Coupled with MICADO, the high resolution camera, will enalble the ELT to
perform diffraction limited near infrared observations. I will describe the
MAORY project and I will illustrate the scientific drivers of the MAORY-MICADO
combination.

Speaker: Dr Paolo Ciliegi (INAF OAS)

13:00 Pranzo

5 The LBT suite of operational AO instruments

The Large Binocular Telescope has been conceived as an adaptive telescope, with two deformable secondary mirrors that can serve every gregorian foci and a strong vocation towards the development of state-of-the-art AO instrumentation. The combination of superb wavefront control and 22m baseline binocular capability makes of LBT a yet unrivaled machine, particularly in the field of high angular resolution observations.  
Several instruments already in operation at the LBT benefit from AO correction, and more will come in the next years. In this talk, we briefly review the status of the ones currently offered for scientific observations to the italian community. 

The LUCIs are two identical NIR spectro-imager with MOS capability with 30" narrow-field and 4' large-field modes assisted by two different AO systems: SOUL, the high-Strehl NGS SCAO system, and ARGOS, the wide-field laser-assisted GLAO system. The LUCIs are installed on both eyes of the LBT capable of full binocular observations and are offered to the italian community as facility instrument through the annual call for proposal.   
LINC-NIRVANA is a NIR imager assisted by a twin MCAO system predisposed for interferometric observations. Each MCAO system measures ground and high layer optical turbulence with two NGS multi pyramids WFSs in a layer-oriented configuration and compensate the turbulence using two deformable mirrors. LINC-NIRVANA is under commissioning at LBT and routinely executes MCAO correction achieving peak performances of 20-30% SR in Ks band.
LBTI is the Mid Infrared imager for high-contrast imaging, null-combiner and Fizeau interferometer focused on exoplanets. LBTI completed the NASA's surveys LEECH and HOSTS and it is now offered to the Italian community as an UofA PI instrument.

Speaker: Lorenzo Busoni (Istituto Nazionale di Astrofisica (INAF))

200217 Busoni AO LBT.pptx

6 SHARK-NIR: the coronagraphic camera getting ready for the first-light at the LBT

SHARK-NIR is a coronagraphic instrument conceived to exploit the excellent performance in terms of resolution and contrast of the LBT Adaptive Optics system SOUL. Coupled with its visible counterpart SHARK-VIS, it will offer the possibility to perform binocular observations combining direct imaging, coronagraphic imaging and coronagraphic low resolution spectroscopy in a wide wavelength domain, going from 0.5µm to 1.7µm. Additionally, the contemporary usage of LMIRCam, the coronagraphic LBTI NIR camera, working from K to M band, will extend even more the covered wavelength range. The main scientific goal of SHARK-NIR is imaging of exoplanets, both for the discovery of new exoplanets and for the characterization of existing ones, however the analysis and study of protoplanetary disks, stellar jets, AGN, QSOs and solar system bodies are within the already foreseen scientific cases of the instrument. We will describe on the final design and actual hardware specifications of the SHARK-NIR instrument and their direct impact of the achievable science. The overall status of the project, currently in its integration and verification phase and whose technical first-light is foreseen by the end of 2020, will be reported.

Speaker: Maria Bergomi (Istituto Nazionale di Astrofisica (INAF))

SHARK-NIR-AO_frontiera_Bergomi.pdf

7 SHARK-VIS: the new high-contrast optical imager for the LBT

SHARK-VIS, the forthcoming high-angular-resolution and high-contrast optical (400-900 nm) imager for the LBT, is an INAF PI-instrument (PI Fernando Pedichini) designed and built by the ADONI group of the INAF-Osservatorio Astronomico di Roma. Its first light is foreseen around mid 2020. SHARK-VIS and its near-infrared counterpart SHARK-NIR will take full advantage of the new LBT extreme-AO facility SOUL and will be able to work in synergy also with LBTI/LMIRCAM: this combination will turn LBT into a unique high-resolution facility with continuous wavelength coverage from 0.4 to 3.5 $\mu$m.
SHARK-VIS will provide LBT with unprecedented high-contrast imaging capabilities in the visible band, by acquiring diffraction-limited images with angular resolutions down to 15 mas. This will be possible thanks to several technical solutions aimed at optimizing the PSF stability and to the fast cadence approach, based on the use of a high-frame-rate low-noise camera and the employ of specific custom algorithms.
We will provide a summary of all the relevant instrument characteristics and will present the observation modes currently available, which are coronagraphic broad- & narrow-band imaging and narrow-band spectral differential imaging. To do this, we will use some realistic setup and observation examples, based on the main scientific programs for the instrument, which include identification of accreting planets in star-forming regions, morphology of jets and disks around young stars, characterization of minor bodies of the solar system, and investigation of the central regions of bright AGNs.

Speaker: Dr Simone Antoniucci (INAF - OAR)

SHARK-VIS - AO Lincei.pdf

Sistema solare: Invited

8 Solar Adaptive Optics

The solar atmosphere is structured to very small scales which are dynamic in nature. Driven by the quest for higher spatial resolution observations, several AO systems have been deployed at major ground-based solar telescopes during the last two decades. Current high-resolution solar telescopes, which are in the 1-1.5 class, utilise AO routinely to achieve the diffraction limit at visible and NIR wavelengths. Many scientific results have been achieved with the solar AO systems developed so far and new ground breaking knowledge is expected from the operation of the complex AO systems in the coming next generation, 4m class solar telescopes.
The presentation will review the current state of solar AO techniques and their impact on the physical understanding of the fundamental astrophysical processes observed on the Sun.

Speaker: Dr Ilaria Ermolli (INAF Osservatorio Astronomico di Roma)

9 Picturing the solar system small bodies with new-generation adaptive-optics systems

Information about solar system small bodies’ size, shape and surface structures is crucial to shed light on the mechanisms behind planetary accretion and evolution.
Until very recently, a detailed characterization of such properties could be obtained only for the handful of objects visited by space missions.
However, new-generation adaptive-optics instruments can open a new frontier in planetary sciences, allowing ground-based disk-resolved investigation of a much greater, statistically significant, number of small bodies.
I will review the state-of-the-art of this field and discuss its perspectives, especially in view of the upcoming availability of advanced instruments of special interest for the Italian community.

Speaker: Davide Perna (Istituto Nazionale di Astrofisica (INAF))

15:55 Pausa caffé

Sistema solare: Contributed

10 EST MCAO: ongoing activities

The European Solar Telescope (EST) will provide spectro-polarimetric measurements of the solar atmosphere with unprecedented sensitivity and accuracy within one arcminute field of view. To this purpose, its optical scheme, as well as its MCAO system, are designed to minimize the instrumental polarization. We report on ongoing activities related to the EST MCAO, which include further design studies, realization of a prototype system, numerical simulations, and lab tests.

Speaker: Roberto Piazzesi (Istituto Nazionale di Astrofisica (INAF))

11 AO assisted spectropolarimetry to study the formation of penumbra in sunspot

During their lifetimes, sunspots show several dynamic phenomena whose underlying physical processes still need to be clarified. For example, the formation process of the penumbra remains unclear because of the need for long time-series of high-resolution observations that are hardly acquired with present-day telescopes. We report the results derived from analysis of unique observations carried out with the Interferometric Bidimensional Spectrometer (IBIS) and high-order adaptive optics system, which pointed to a new scenario for the formation of the penumbra in sunspots.

Speaker: Mariarita Murabito (Istituto Nazionale di Astrofisica (INAF))

Fromazione stellare ed esopianeti pt.1: Invited

12 Exoplanets with AO instruments

The exoplanet science has received great benefit from the availability of AO instrumentation, especially with the building of the last generation of extreme AO systems. I this talk I summarize the main scientific results achieved in the last years with the direct imaging techniques, the perspectives for planet detection and characterization with future instrumentation, and the synergies with other planet detecion techniques.

Speaker: Dr Silvano Desidera (INAF-OAPD)

13 SPHERE planet imager: instrument presentation and main results

The SPHERE planet imager is now operating at the VLT since five years.
I will present here a description of the instrument and of its performance. Morover
I will introduce the data reduction methods needed to extract science result from
the instrument data. Finally I will review the main outcome obtained from the instrument in it operativity period.

Speaker: Dino Mesa (Istituto Nazionale di Astrofisica (INAF))

workshopAO_DinoMesa_v1.pdf

Fromazione stellare ed esopianeti pt.1: Contributed

14 Demographics of Exoplanets in Wide Orbits: A Multi-Technique Approach

The combination of transit surveys and radial-velocity programs has revolutionized our understanding of planets orbiting close to their host stars and our understanding of exoplanetary systems in general. However, a detailed comprehension of the orbital and physical properties and frequencies of extrasolar planets at orbital separations beyond that of Jupiter in the Solar System, and how they relate to the fundamental characteristics of their parent stars (what we call wide-orbit exoplanet demographics), is still missing. This gap in our understanding must be filled in order to provide a complete picture of the complex processes of planet formation evolution. We will discuss the prospects for joint analyses of results from multiple methods and obstacles that could hinder such analyses, with a particular emphasis on the combination of ground-based high-contrast imaging observations and Gaia high-precision space-based astrometry.

Speaker: Dr Alessandro Sozzetti (Istituto Nazionale di Astrofisica (INAF))

15 Detection and characterization of very young planets

I will briefly discuss how detect and characterize very young planets. This requires to select the right targets and to use a multi-wavelength approach. I will illustrate the key observations using a few examples.

Speaker: Dr Raffaele Gratton (INAF - Osservatorio Astronomico di Padova)

Raffaele_Roma-Febbraio_2020.pdf

Tuesday, 18 February

Formazione stellare ed esopianeti pt.2: Invited

16 The role of AO in star formation: a closer look to protoplanetary disks

Star formation, and in particular formation, evolution and dissipation of protoplanetary disks is a hot topic in nowadays astronomy because it bridges the classic study of star formation to the new discovery and characterization of extrasolar planets.
In this talk I will review the role of AO in star formation, focusing in particular on how our understanding on formation, evolution and dissipation of protoplanetary disks has gained new insight from these observing methods.

Speaker: Elisabetta Rigliaco (Istituto Nazionale di Astrofisica (INAF))

Formazione stellare ed esopianeti pt.2: Contributed

17 Looking for binary planets, satellites and disks around exoplanets

In the past decades the exoplanets hunting has improved so much that thousands of planets have been confirmed and partially characterized. Both indirect and direct detecting techniques have filled this huge sample, from the terrestrial to the gas giant and brown dwarf regime. One further step would be to detect exomoons and disks/rings around exoplanets, that we expect to be there taking as a model our Solar System. We will show how this goal is, however, a really challenging one and which estimates we can obtain from the present instrument and data. In particular, we developed a technique based on the PSF subtraction to deeply investigate the neighborhoods of exoplanets detected with the direct imaging technique in order to look for further companions and circumplanetary disks.

Speaker: Cecilia Lazzoni (Istituto Nazionale di Astrofisica (INAF))

18 AO-assisted integral-field and long slit spectroscopy: investigating brown dwarfs and exoplanets

In this contribution I will present and discuss the exploitation of AO-assisted
spectroscopic instrumentation (both integral field and long-slit) in order to detect and characterise exoplanet and brown dwarf population.
Fundamental information on mass, separation, age, surface gravity and clouds (more in general atmospheric properties) can be inferred via this kind of observations, overcoming degeneracies that plague photometry. This has significant impact on our understanding of formation and evolution mechanisms for sub-stellar objects, still debated.

Speaker: Valentina D'Orazi (Istituto Nazionale di Astrofisica (INAF))

Valentina_Roma_Febbraio_2020.pdf

19 Planet formation, from ALMA to ERIS

In the last years, ALMA has revolutionised the field of plant formation.
The high angular resolution campaigns are showing a great variety of protoplanetary disk morphologies, revealing the presence of rings, gaps, cavities and spirals.
Such sub-structures suggest the presence of young giant planets that perturbs the mass distribution and dynamics of gas and dust in the disk.
And yet, a direct proof is still missing. Confirming the presence of young giant planets in correspondence of the dust gaps and cavities seen with ALMA is a mandatory step to understand the origin of the disk sub-structures and to shed light on the formation mechanism of (giant) planets.
High contrast imaging is a powerful tool and in particular VLT/ERIS has the great potential to detect newly-born planets (partly) embedded in the
natal disk via inside the disk thanks to the possibility to observe at long wavelengths (L and M).
In my talk, I will present a proposal for an ERIS observing program starting from the ALMA observations of protoplanetary disks.

Speaker: Davide Fedele (Istituto Nazionale di Astrofisica (INAF))

20 Planet formation: from SPHERE to ERIS

In the last years, SPHERE has revolutionized the field of planet formation. Also thanks to Subaru/HiCiao, GPI, and VLT/NACO, the number of protoplanetary disks observed in near-IR scattered light now amounts to more than 100. This census reveals, similarly to ALMA, the high occurrence of disk sub-structures that are likely due to the gravitational interaction with (forming) planets. Yet, the sample is biased toward massive disks around relatively old stars. I will show how our community is alleviating these biases through the SPHERE large programs DARTTS, published, and DESTINYS, ongoing. Also, I will discuss a few specific cases where VLT/ERIS can complement the sample of imaged disks by detecting and characterizing (forming) planets that have remained concealed to SPHERE.

Speaker: Antonio Garufi (Istituto Nazionale di Astrofisica (INAF))

10:37 Pausa caffé

Popolazioni stellari: Invited

21 High resolution imaging in crowded stellar fields: present and future science

Ground-based imagers assisted by Multi Conjugate Adaptive Optics (MCAO) systems are the technological frontier to obtain high-quality stellar photometry and astrometry in crowded fields at the highest possible spatial resolution. I will review the main scientific results obtained in the last years in the field of stellar populations by using AO data and key advancements in their exploitation. I will also discuss future challenges and perspectives at the edge of a new golden-era that will soon open thanks to the availability of imagers assisted by MCAO systems at 30-40m class-telescopes and their complementarity with JWST from the space.

Speaker: Dr Emanuele Dalessandro (INAF - OAS Bologna)

dalessandro_AO_roma.pdf

22 AO-assisted spectroscopy in crowded stellar fields: present and future science opportunities

In this talk I will discuss state-of-the art scientific use and
future perspectives of integral field spectroscopy assisted by
adaptive optics as an optimal multi-object capability in dense
stellar fields.

Speaker: Livia Origlia (Istituto Nazionale di Astrofisica (INAF))

LO.pdf

23 Deep into the core of dense star clusters with ELT

We discuss some science cases that will exploit the Extremely Large Telescope (ELT) diffraction limit power. We focus on a novel and detailed analysis of a young star cluster in the Large Magellanic cloud, R136–like. The main aim of this study is to quantify precision and accuracy of stellar proper motions measurements in crowded field when using an ELT working at its diffraction limit. This can serve as a reference study for future development of ELT scientific cases. In particular we investigate our future ability to detect the dynamical signature of intermediate-mass black holes with mass ∼10^4M⊙ through detailed measurements of stellar proper motions.
Finally, using a similar approach, we will explore another natural science target for astrometric measurements with ELT: the Galactic centre Arches’ cluster.

Speaker: Dr Giuliana Fiorentino (Istituto Nazionale di Astrofisica (INAF))

Popolazioni stellari: Contributed

24 ERIS at VLT as a stepping stone for next generation AO assisted IFS

We plan to discuss a few medium resolution near infrared spectral features that can be used to contrain metallicity distribution of old (RR Lyrae, Type II Cepheids) and young (Classical Cepheids) stellar tracers in crowded and highly reddened regions of the Galactic inter bulge and of the Galactic thin disk. In particular, we will focus our attention on the key opportunity to couple NIR/MIR photometry and spectroscopy.

Speaker: Giuseppe Bono (Istituto Nazionale di Astrofisica (INAF))

25 An in-depth view on bulge globular clusters in the MCAO era.

MCAO are a cornerstone technology for current and future telescopes (g.e. ELT). The synergy between high-resolution near-infrared imagers and MCAO systems is already leading the way for the characterisation of the stellar content and the structural properties of all of those systems in the Galaxy for which optical observations are almost totally useless. I will give an overview of the results recently achieved for highly obscured globular clusters in the Milky Way bulge thanks to the MCAO system GeMS at the Gemini South Telescope. These results clearly demonstrate that, once both the photometric and astrometric performances of these systems are fully constrained (in terms of variable PSF, geometric distortions), then high-quality proper motion measurements entirely based on ground-based AO observations can be performed. This is going to be one of the major achievements of the AO community in stellar clusters studies.

Speaker: Dr Sara Saracino (Astrophysics Research Institute, Liverpool John Moores University)

26 MAVIS: a revolution in the study of resolved stellar population in the nearby Universe

The formation and evolution of galaxies, and in particular of the Milky Way, is one of the major puzzles of astrophysics: a detailed physical scenario is still missing, and its understanding requires the joint effort of observations and theories. The evolution with time of the chemical content of a galaxy is one of the topic constraints to understand the most relevant mechanisms driving galactic formation and evolution. Star clusters have proven to be excellent tracers of the chemical evolution of our Galaxy,as done in the last years by the Gaia-ESO Survey.
The challenge is now to move towards nearby galaxies and to investigate, with comparable precision, the star cluster populations in different environments.
MAVIS is the instrument that will make a revolution in studies of crowded field populations, as star clusters, in nearby galaxies. I will shown some science cases that will benefit of the MAVIS AO and spectroscopic facilities.

Speaker: Laura Magrini (Istituto Nazionale di Astrofisica (INAF))

Mavis_magrini_roma2020.pdf

13:10 Pranzo

27 The Galactic globular M30 as a laboratory for adaptive optics

We present optical and NIR photometry for the Galactic globular M30. We focussed our attention on this globular because it is a post core collapsed, this means that the innermost regions display a cusp in density distribution. Moreover, M30 was observed with gound- and space-based (HST) telescopes. In particular, NIR images were collected with both seeing limited NIR array (SOFI@NTT), Ground-layer-adaptive-optics (HAWK-I@VLT) and with different multi-conjugated AO systems (MAD@VLT, GEMS@GEMINI). We present several NIR color-magnitude diagrams and discuss the photometric accuracy and limiting magnitude when moving from seeing limited to AO assisted images. Moreover, we briefly outline the impact on the accuracy of proper motion measurements.

Speaker: Massimo Dall'Ora (Istituto Nazionale di Astrofisica (INAF))

Analisi dati: sfide e strumenti: Invited

28 AO data analysis challenge

Adaptive Optics correction retrieves PSF temporally and spatially variating following the optical turbulence dynamics. The stability of the energy ratio core/wings affect the photometric precision, and the spatial variation of the shape of the PSF core makes complicated the morphology analysis of quasi point-like sources. Time averaging mitigates the temporal variation effect while spatial variation needs proper characterization. Current AO/MCAO facilities (e.g., LUCI-FLAO, SPHERE, GEMS) routinely produce valuable high-resolution data, which exploitation represents a challenge for existing data reduction tools. Today we will focus on the challenges and on the solutions currently adopted to mitigate the complexities, looking forward to PSF-reconstruction and PSF-fitting techniques.

Speaker: Carmelo Arcidiacono (Istituto Nazionale di Astrofisica (INAF))

PSF.pdf

PSF.pptx

Analisi dati: sfide e strumenti: Contributed

29 The PSF Reconstruction of MICADO@EELT

MICADO@EELT will be the workhorse facility for Adaptive Optic assisted
ground-breaking NIR deep high spatial-resolution imaging and
spectroscopy of the next decade. Modern ground-based large telescopes
depend heavily on AO systems to correct for atmospheric
turbulence. The recovery of the intrinsic properties of the observed
sources (position, photometry, morphology) depends critically on the
reconstructed point spread function (PSF). Our Team is actively
working on developing instrument software for the reconstruction of
the PSF of MICADO, independently of the science data, both for single-
and multi-conjugate adaptive optics mode observations using AO
telemetry data. The PSF-Reconstruction software will be able to
generate field-dependent PSF images at the desired wavelength taking
into account both AO and non-AO (e.g. telescope or atmospheric)
input. The PSF-Reconstruction service will support the
state-of-the-art scientific analysis of the MICADO SCAO-MCAO assisted
imaging and spectroscopic data by maximizing the scientific
information that could be extracted from complex but powerful AO data.

Speaker: Andrea Grazian (Istituto Nazionale di Astrofisica (INAF))

Grazian_PSFR_Feb2020.pdf

30 A new software for photometry and astrometry in the AO era

In the AO era, the intrinsic complexity and variability of the point spread function (PSF) poses severe challenges to the analysis of optical and NIR images.
I will present preliminary results from a new astro-photometric software which we specifically designed to deal with spatially complex and variable PSFs.
The software iteratively build a series of numerical PSFs from different regions of the image, interpolates them and fits them it to identified stellar sources, improving at each step both the PSF modelling and the source fitting quality.
I will present the main advantages and disadvantages of this software and compare its performance to that of classical softwares (like DAOPHOT) on synthetic and real images.
Potential synergy with classical PSF-reconstruction methods will be also discussed.

Speaker: Antonino Marasco (Istituto Nazionale di Astrofisica (INAF))

superstar.pdf

31 Successful application of PSF-R techniques on SPHERE/ZIMPOL observations of the globular cluster NGC6121

Precise stellar photometry and astrometry require the best possible modelling of the point spread function (PSF). To date, the best performances have been obtained when building the PSF directly from the image of dense stellar fields, exploiting the fact that each star represents a different realisation of the same PSF. The recent advent of the Adaptive Optics technique makes this method more challenging, because of the strong PSF variations accross the field of view. One alternative is to use PSF-reconstruction techniques, that rely on Adaptive Optics control loop data to determine the shape of the PSF at any spatial location. Despite being theoretically well established, so far PSF-R has never surpassed the performance obtained by standard methods when applied to real astronomical imaging. Here we report on the first successful use of PRIME, a new technique that combines both PSF-R and image fitting, to perform precise photometry and astrometry on real data of the Galactic globular cluster NGC6121, observed with SPHERE/ZIMPOL. Compared to the results obtained using standard techniques, PRIME achieves improvement in precision by up to a factor of four. These results thus pave the way for the exploitation of PSF-R techniques to investigate resolved stellar population science cases with future Adaptive Optics-assisted instrumentation like the Extremely Large Telescopes and MAVIS.

Speaker: Davide Massari (Istituto Nazionale di Astrofisica (INAF))

Massari_public.pdf

15:40 Pausa caffé

32 Exploiting post-AO fast-cadence high-contrast imaging data in the visible

Diffraction-limited frames sequences, containing millions of pupil-stabilized images acquired at kHz rate after Extreme Adaptive Optics (ExAO) correction, will be the baseline outcome of SHARK-VIS, the forthcoming high-contrast imager in the visible band for the Large Binocular Telescope (LBT).
Such fast-cadence imaging concept allows us to freeze the evolution of the ExAO residual speckles, opening the possibility to fully exploit the temporal information within the data and improve high-resolution and high-contrast performances.
In the framework of the SHARK-VIS pipeline, we will present the results of real on-sky acquisitions at LBT, by showing the processing flows of some standard algorithms and of the novel methods we are developing, capable of pushing the contrast to the noise limit and the resolution to the theoretical diffraction.

Speaker: Gianluca Li Causi (Istituto Nazionale di Astrofisica (INAF))

2020_02_19 - Lincei - Li Causi - Exploiting Fast Cadence HCI.pptx

33 From the white paper to the dark sky: quantifying the capabilities of the next-generation telescopes using simulations

Modern astronomy is strongly supported by the considerable development of the technology: the effort towards probing new AO methods, building new instrumentation and systems is tightly correlated to the progress in science. The next generation of telescopes have to demonstrate to be up to the task, meeting the expectations of the astronomical community. This can be partially ensured conducing preliminary simulations to quantify their capability, usually selecting some key science cases presented in white books as science drivers. In this talk I will discuss how close-to-real simulations can serve as a tool to help the complex interaction of data construction. They also go simultaneously with the definition of some characteristics of the instrument itself, being one of the most efficient way to validate scientific proposals, flow down requirements into quality of the data products, or means for the solution of technical trade-off processes. In particular, I will refer to my experience in the context of the ELT+MAORY and MAVIS projects.

Speaker: Dr Elisa Portaluri (INAF - OAPD)

34 STARFINDER 2.0

The Starfinder code (Diolaiati et Al 2000) has been the first attempt to face with the typical adaptive optics structured Point Spread Function (PSF) in dense star fields to accomplish astrometric and photometric analysis. The next release of the software will also handle a variation of the PSF across the Field of View (FoV) including the option of an analytical variation model that can be defined by the user. The PSF can be either extracted numerically from the brightest stars in the science field or computed externally and provided as an input in the form of a single image or a cube of images. This feature makes this software suitable to work with PSF models obtained by PSF recostruction techniques.

Speaker: Dr laura schreiber (INAF OAS)

Starfinder2.pdf

35 INAF Computing Facility: DATA-STAR (IT evolution from 'project e-infra' to 'INAF e-infra')

The activities related to the INAF IT had a heavy acceleration in the last year, also related to the infrastructure of the Bologna Tecnopole, the assignment of the CINECA-led Euro HPC project, the SKA and CTA projects. This acceleration has made that the experience gained with national calculation, storage and archives projects (eg MoU CINECA, CHIPP project, connection with the Commercial Cloud, IA2 archives, etc.) should evolve towards the creation of an e-infra INAF. This must meet the request of the community by taking advantage of the opportunities that large projects are giving us and using, through strong coordination, the skills present in INAF. The DATA-STAR INAF e-infra is not only an hardware statement, but the key main value is the people networking.
We therefore want to inform the community of the steps that are being taken in this direction, illustrate the idea and organization of this strong coordination, and collect the community's advice and requests.

Speakers: Riccardo Smareglia (Istituto Nazionale di Astrofisica (INAF)), Marco Landoni (Istituto Nazionale di Astrofisica (INAF))

Data Star ICT Lincei 2019.pdf

Extragalattico pt.1: Invited

36 Galaxies at high resolution: what ERIS and MAVIS can do for us

The incoming AO imagers and spectrographs ERIS and MAVIS for ESO/VLT are specifically designed to maximize sky coverage, in particular to allow for extragalactic studies. ERIS will cover the near-IR bands starting from early 2021, MAVIS will observe in the optical from ~2025. I will discuss what are the cutting-edge questions that these instruments will contribute to answer, and what are the synergies with JWST and, later, with E-ELT

Speaker: Dr Filippo Mannucci (INAF - Arcetri)

37 High resolution multiwavelength diagnostics of AGN and their host galaxies

TBD

Speaker: Chiara Feruglio (Istituto Nazionale di Astrofisica (INAF))

feruglio-astrofisica-di-frontiera-con-ao.pdf

Wednesday, 19 February

Extragalattico pt.2: Invited

38 Exploring the distant Universe with AO at the focus of cosmic telescopes

Gravitational lensing is allowing us to access physical scales and
luminosities in the distant Universe with unprecedented accuracy,
offering the opportunity to infer key physical quantities otherwise
unaccessible without AO. While such scientific programs are somehow
propaedeutic, AO technology coupled with cosmic telescopes will project
astronomers into a new territory. I'll present what we are learning
from the current studies on lensed and super-lensed fields, focusing
on the exploration of the farthest and faintest galaxies, down to
the parsec scale, eventually catching the still elusive formation of
globular clusters, potential agents of cosmic reionization.

Speaker: Dr Eros Vanzella (INAF - OAS)

Vanzella_AO_share.pdf

Extragalattico pt.2: Contributed

39 Galaxy evolution and environment: lessons from MUSE and perspectives with MAVIS

Environmental effects play a primary role in galaxy evolution and in
particular in shaping the star formation history of galaxies in groups
and even more so in dense environments.

The MUSE IFU has allowed to study in detail how environmental effects
act in shaping galaxy properties, its limitation being essentially the
spatial resolution that can be reached using ground-based
instrumentation. Similarly, the physical properties of galaxies and
of their star forming clumps can be studied only out to small
distances before being hampered by the seeing effects. The advent of
AO assisted instrumentation, such as MAVIS at VLT, will allow to
overcome this difficulty, leading to a huge step forward in the
comprehension of how galaxy evolve in different environments.

In this talk I will present what we have learned in this field thanks
to the GASP MUSE survey and how we propose to use MAVIS to shed light
on the open questions.

Speaker: Alessia Moretti (Istituto Nazionale di Astrofisica (INAF))

AO2020_moretti.pdf

40 Passive galaxy candidates in the early Universe

The selection of passive galaxies in the early (z>3) Universe is very challenging, and crucial to constrain theoretical modelling of the processes responsible for their rapid assembly and abrupt shut-down of the star formation. I will describe the careful selection method which we developed to single out quiescent galaxies at high z in the CANDELS fields. I will present the resulting sample of 102 candidates at z>3 and show how ALMA archival observations support and confirm their passive nature. Finally, I will discuss the contribution of adaptive optics in the study of early passive galaxies.

Speaker: Paola Santini (Istituto Nazionale di Astrofisica (INAF) - Osservatorio Astronomico di Roma)

Santini_AO2020.pdf

41 AO observations of AGNs: from the present to ERIS and MAVIS

Despite the limitations in terms of sky coverage and corrections, current AO facilities are providing a unique, high spatial resolution view of AGNs and their hosts. After presenting some examples of the results obtained, I will discuss the unsolved issues that will be tackled by the advent of the new generation IR and optical AO fed Integral Field Spectrographs, ERIS and MAVIS at VLT.

Speaker: Giovanni Cresci (Istituto Nazionale di Astrofisica (INAF))

Cresci_AO_Roma_2020.pdf

42 Compact quiescent galaxies with adaptive optics

Relic galaxies, low-redshift old compact massive galaxies, are thought to be local counterparts of red and quiescent compact massive galaxies at high-z (the so called "red nuggets"), that missed the channels of galaxy size growth and evolved undisturbed since their first mass assembly. Therefore, they represent the perfect laboratories to study the mass assembly in the early universe through the cosmic history. Thanks to wide-sky multi-band deep photometric surveys and low-resolution spectroscopic follow-ups, a large sample of photometrically selected and spectroscopically validated ultra-compact massive galaxies at z < 0.5, consisting of small (Re < 1.5 kpc) and massive (M_star > 8*10^10 M_solar) systems, has been collected (e.g. KiDS@VST; Tortora et al. 2018). Future instruments (as Euclid) will allow to increase this redshift baseline, discovering large samples of compact quiescent galaxies, progenitors of the local biggest galaxies or relics, up to redshift z = 1.5 and beyond. Due to the sub-arcsec and sub-PSF nature of such galaxies (since Re < 0.4 arcsec), adaptive optics technique is the only way to resolve them in both photometry and spectroscopy. I will discuss the possible use of the upcoming ERIS and MAVIS spectrographs, the perfect instruments for this kind of analysis. The spatial resolution reached by these instruments can first allow to derive very precise estimates of the structural parameters. Moreover, they provide a unique opportunity to study their stellar populations and constrain the IMF from the very central galaxy regions to the peripheries. In this way, we can constrain the physical scenario which led to the formation of such very peculiar objects, determining constraints on the accretion history of the most massive galaxies in the Universe till the present day.

Speaker: Crescenzo Tortora (Istituto Nazionale di Astrofisica (INAF))

43 Unveiling the cosmic ray acceleration in SNR using the Balmer emission

The blast wave of young supernova remnant are often associated with Balmer emission produced by the excitation of neutral Hydrogen in the ISM by shocked ions. The resulting Balmer lines contain information on the shock structure, in particular connected to the plasma temperature, speed, ionization fraction and turbulence level. If the same shock accelerate efficiently cosmic rays (CRs), the shock structure is modified affecting also the associated Balmer emission.
The possibility of study Balmer emission with the high spatial resolution provided by the AO technique can help to understand the physics of collisionless shocks as well as the CR acceleration mechanism, especially because non thermal particles are traditionally studied through X-ray and gamma-rays whose angular resolution is by far worse than optical observations and cannot resolve important details of the shock.

Speaker: Giovanni Morlino (Istituto Nazionale di Astrofisica (INAF))

Morlino_OA_Roma(2020).pdf

10:55 Pausa caffé

Tavola rotonda: Simone Esposito, Adriano Fontana, Filippo Zerbi

Conclusioni: Nichi D'Amico

13:00 Pranzo