Instytut Astronomii

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Seminarium Ogólne (2022)

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Seminarium odbywa się w Piwnicach w sali wykładowej budynku Radioastronomii. Początek o godzinie 11.15.

Począwszy od 27 kwietnia 2020 do odwołania seminarium prowadzone jest w formie wirtualnej.
Udział w seminarium w trybie zdalnym za pośrednictwem platformy WEBEX lub alternatywnie BigBlueButton (BBB).
Wybór platformy podawany jest w ogłoszeniu o konkretnym wykładzie.

3 stycznia 2022

“News about HIRES/ELT/ESO and the research infrastructure of the Piwnice optical and radio observatory”

prof Andrzej Niedzielski oraz dr hab. Agnieszka Słowikowska (Instytut Astronomii, Uniwersytet Mikołaja Kopernika)

This seminar will be divided into two parts. First, we will summarize our recent contribution and future plans to the HIgh REsolution Spectrograph (HIRES) for the Extremely Large Telescope (ELT/ESO, prof. Andrzej Niedzielski). In the second part, we will give a general overview of updates of the research instrumentation in our Observatory in Piwnice (dr hab. Agnieszka Słowikowska).

10 stycznia 2022

“Synchrotron emission of simulated galactic disks”

mgr Mateusz Ogrodnik (Instytut Astronomii, Uniwersytet Mikołaja Kopernika)

Theoretical and numerical studies incorporating cosmic rays (CRs) into global modeling of magnetized interstellar medium demonstrate that CRs play an important role in the generation of large-scale galactic magnetic fields, and, at the same time, in driving galactic winds. CR-driven dynamos produce magnetic arms in galactic disks and large-scale helical magnetic fields in galactic halos. These models, however, often lack means to verify them via comparison with observable data.

A possible solution to this problem comes with the recently introduced and published ”Cosmic Ray Energy SPectrum” (CRESP) module of PIERNIK MHD code, being an implementation of energy-dependent propagation of CR electrons. In this model, CR electrons propagate using the energy-dependent diffusion-advection equation, including adiabatic cooling and synchrotron losses.

The algorithm is used in global galactic disk simulation to study propagation effects of CR electrons in edge-on disk galaxies and their imprint on resulting synchrotron radiation. Synchrotron radiation maps and slices are compared against observed radiation of NGC891 galaxy, allowing direct comparison of a used model.

In the course of the simulation galactic magnetic field is magnified, synthetic synchrotron radiation maps of simulated galaxies reproduce a number of features observable in physical edge-on galaxies, e.g. ‘X-shaped’ polarization patterns and similar spectral slope of total synchrotron emission. The disk, produces strong galactic wind is, with outflow velocity comparable to NGC891, however showing the conical shape and resulting in outflow-dominated emission, thus resembling starburst galaxy M82.

17 stycznia 2022

“Hot and warm gas in star-forming regions in the outer galaxy”

mgr Ngan Le (Instytut Astronomii, Uniwersytet Mikołaja Kopernika)

Star formation is ubiquitous in the Galaxy, but the physical and chemical conditions in star-forming sites might differ as a function of Galactocentric radius. For example, due to the negative metallicity gradient, the abundance of molecules and dust, and the efficiency of gas cooling is expected to decrease in the outer Galaxy. Recent infrared surveys revealed star formation sites in the Outer Galaxy in a wide range of environments. The CMa-l224 region in Canis Major at a distance of 1 kpc is a star-forming region hosting a few hundred low- to intermediate-mass young stellar object (YSO) candidates and showing evidence for the presence of outflows traced by the CO and the Spitzer 4.5 μm emission.
Here, I will present the results of the spectroscopic studies aimed at characterizing the gas accretion onto YSOs and the gas cooling from their surroundings in CMa-l224. By comparisons to other star-forming regions in the Galaxy as well as to YSOs in Magellanic Clouds, I will discuss the possible effects of metallicity on star formation as revealed in the outer Galaxy. Finally, I will also present some preliminary results concerning magnetic fields in a star-forming region in Ophiuchus-A, which will be later extended to the outer Galaxy.

21 lutego 2022

“Ultraluminous X-ray sources”

prof. Jean-Pierre Lasota-Hirszowicz (CAMK PAN, Warszawa oraz Institut d’Astrophysique de Paris)

Ultraluminous X-ray sources (ULXs) are off galactic-center objects whose X-ray luminosities surpass the 10M⦿ Eddington luminosity. It appears that most of the ULXs are massive binary systems containing accreting neutron stars; those observed directly are mainly identified through periodic pulsations (PULXs) indicating the presence of a magnetic field. After reviewing the ULX observations I will show that most of these very luminous objects contain usual X-ray pulsars during a short phase of the evolution of their binary systems. X-ray pulsars in Be/X-ray binaries become transient low-luminosity PULXs during so-called giant (Type II) outbursts of these systems. The PULX X-ray luminosity is beamed (collimated) explaining observed apparent luminosities surpassing even 1000 of neutron-star’s Eddington luminosities.

28 lutego 2022

“HD 133729 – a clue for understanding blue large-amplitude pulsators?”

prof. dr hab. Andrzej Pigulski (Instytut Astronomiczny, Uniwersystet Wrocławski)

Blue large-amplitude pulsators (BLAPs) form a small group of pulsating stars discovered less than a decade ago. These extremely rare and hot (effective temperatures of about 30 000 K) stars pulsate radially with the periods of the order of 30 minutes. Several alternative theories have been proposed to explain their origin. In general, they are believed to be evolved low-mass stars with masses ranging between 0.2 and 1 solar mass, depending on the evolutionary scenario. Using TESS data we found that HD 133729 is a binary consisting of a late B-type main-sequence star and a BLAP. This makes the star the first known binary BLAP. Its discovery opens an opportunity of a direct determination of the mass of a BLAP. In consequence, it should allow to verify evolutionary scenarios proposed for BLAPs.

7 marca 2022, godz. 11.00

“A Model of the Cosmos in the ancient Greek Antikythera Mechanism”

prof. Tony Freeth oraz dr Adam Wojcik (University College London, Wielka Brytania)


Our great guests are Professor Tony Freeth and Dr Adam Wojcik, members of the University College London Antikythera Research Team. The UCL team recently solved a major piece of the puzzle that makes up the ancient Greek astronomical calculator known as the Antikythera Mechanism, a hand-powered mechanical device, an analog computer, that was used to predict astronomical events.

Professor Tony Freeth is a mathematician and an award-winning filmmaker, he has conducted research on the Antikythera mechanism and promoted it through films and presentations since 2000. Dr Adam Wojcik’s research interests reside in the study of materials and in the development of techniques for materials testing, archeology and Classics.

The seminar will be conducted as a question and answer (Q&A) session. Prior to the seminar, please watch the professional video for an overview of the discovery and UCL team work presentation. We also recommend two recent papers published in the journal Nature Science Reports and in Scientific American.

14 marca 2022

“Dynamical models to explain double debris belts systems and comparison with SPHERE observations”

dr Cecilia Lazzoni (Physics and Astronomy, University of Exeter, United Kingdom)

Planets are the likely responsible for gaps inside disks. However, up to date, a very small number of them have been detected, even with very performing instrument such as SPHERE. For this reason we developed analytical tools to determine which planetary architectures can explain the presence of gaps. At the same time, we cross-checked the results (masses, semi-major axis, inclinations, etc.) with detection limits obtained with SPHERE. We thus obtained the most likely configurations that, at the same time, can match the width of the gap of a particular system and the (non) detectability of the planets.

21 marca 2022

“The amazing old nova and symbiotic binary R Aquarii”

prof. dr hab. Joanna Mikołajewska (CAMK PAN, Warszawa)

R Aqr is one of the closest symbiotic binaries composed of a white dwarf and Mira-type AGB star orbiting each other with ~44 yr period. It is one of the best studied symbiotic systems with the two binary components independently resolved by VLT and ALMA imaging. The binary is surrounded by very complex bipolar nebula with a spectacular jet outflow. I will review the properties of this system and present our results on ALMA imaging of the molecular CO lines and the continuum distributions as well as SiO maser monitoring.

28 marca 2022

“Chaotic rotational dynamics of Hyperion”

dr Mariusz Tarnopolski (Instytut Astronomii, Uniwersytet Mikołaja Kopernika)

Hyperion is an irregularly shaped satellite of Saturn that was predicted to remain in a chaotic rotational state. This was confirmed to some extent by Voyager 2 and Cassini series of images and time series analysis of ground-based photometric observations. The aim of this talk is to explore conditions for such observations to meet in order to estimate the maximal Lyapunov exponent, which is an indicator of chaos (i.e., measures sensitivity to initial conditions). Light curves existing in literature as well as 3D numerical simulations were examined using standard tools of theory of chaos and nonlinear time series analysis. It was found that observations from one site should be regularly performed over at least a year-long period to detect chaos, if present, in a reliable way. Moreover, using a simplified toy model the influence of Titan as a secondary source of gravity was found to be non-negligible in assessing the rotational state. Finally, a Hamiltonian-based chaos control method showed the chaotic rotation can be suppressed down to a strictly periodic behaviour, which while still futuristic, is crucial for future asteroid capture missions and mining attempts. The employed methodology is readily applied to other small bodies in the solar system as well.

I will also give a brief overview of my other scientific endeavours, particularly in the fields of gamma-ray bursts and active galactic nuclei.

4 kwietnia 2022

“Chemical ingredients of stellar nurseries. ALMA interferometer paves the way for James Webb Space Telescope”

dr Łukasz Tychoniec (European Southern Observatory, Garching)

The physical and chemical conditions in the earliest stages of formation of Solar-system analogues are fundamental in unveiling the chemical composition of protostars and its impact on planet formation. Simple molecules and more complex organic and prebiotic species are found in the ice and gas as they are being transferred from the molecular clouds into the planet-forming disks and planetary cores and atmospheres. Therefore, to understand how life originates around Solar-like stars, it is essential to trace the chemical evolution during the first few hundred thousand years of star and planet formation.

I will present recent work in which we use a suite of Atacama Large Millimeter/submillimeter Array (ALMA) datasets in Band 6 (1 mm), Band 5 (1.8 mm) and Band 3 (3 mm) at spatial resolutions 0.5 – 3 arcsec for 16 protostellar sources. This is an effort to pinpoint chemical tracers to the physical components of the young protostellar systems at the Solar System scales (50 au). I will put our results in the context of the recently launched James Webb Space Telescope (JWST) and our Cycle 1 observing program. From protostars targeted in our work, 12 will be observed by JWST with MIRI and NIRSpec observations. ALMA provides a kinematic map of components for which JWST will deliver the sub-arcsecond observations in near- and mid-infrared for the first time.

11 kwietnia 2022

“The Atmospheres of Extrasolar Planets”

dr Monika Stangret (Instituto de Astrofísica de Canarias, IAC)

The study of exoplanetary atmospheres is still in its infancy, with only a handful of reliable detections of atmospheric features. The main reason behind this is the intrinsic difficulty of such observations. But the situation is quickly changing, with the arrival of ultra-stable high dispersion spectrographs (HDS) mounted on 4-m-class telescopes. Observations with HDS allows not only for the detection of chemical species, but also for the determination of the temperature profile of upper atmospheric layers and even search for high-altitude winds.

During my presentation I will introduce you to the techniques of detections of exoplanetary atmospheres, focusing on observations of hot and ultra-hot Jupiters, gas-giant planets with short orbital period, and hot, extended atmospheres. HJs and UHJs are most suitable objects in order to study the chemical composition of the atmospheres using emission and transmission spectroscopy. Their tidally-locked nature leads to big differences between night and day side temperatures, and in consequence differences in the atmospheric chemical composition on both

25 kwietnia 2022

“Differentiated planetesimals in the Solar System as revealed from observations of V-type asteroids”

dr Dagmara Oszkiewicz (Instytut Obserwatorium Astronomiczne, Uniwersytet im. Adama Mickiewicza, Poznań)

Basaltic V-type asteroids are considered parts of mantles and crusts of theoretically plentiful differentiated planetesimals that existed in the Solar System billion years ago. Some Solar System theories suggest that those objects formed in the terrestrial planet region and were then implanted to the Main Asteroid Belt. In consequence we should observe a large number of fragments of multiple differentiated planetesimals in the inner Main Belt. Through physical and dynamical characterization of V-type asteroids we verify those theories and put constraints on the formation location of the differentiated planetesimals.

9 maja 2022

“Transformative advances in post-main-sequence planetary system science”

dr Dimitri Veras (University of Warwick, UK)

Connecting planetary systems at different stages of stellar evolution helps us understand their formation, evolution, and fate, and provides us with exclusive and crucial insights about their dynamics and chemistry. Post-main-sequence white dwarf and giant branch stars host planetary systems which include a variety of observed objects and phenomena, such as planetary debris discs, disintegrating and embedded asteroids, exo-comets, photospheric metal pollution, and planets themselves. Here, I provide a review of both our current knowledge of these systems and models which have been used to explain them. I also highlight the transformative advances expected in upcoming years with the current and next generation of ground-based and space-based initiatives.

16 maja 2022

“The depth and the vertical extent of the energy deposition layer in medium-class solar flares and recent progress in preparations of the ESA’s ROSIE project”

prof. dr hab. Paweł Rudawy (Instytut Astronomiczny, Uniwersytet Wrocławski)

1. The position and the vertical extent of the energy deposition layer (EDL) of the solar flares can not be observed. I will present the results of numerical modeling of the EDL in a typical solar flare, based on X-ray data collected with the RHESSI satellite and validated with high-time resolution spectra-imaging observations collected with the MSDP-type spectrograph in the Bialkow Observatory of the University of Wroclaw. Some information about the new generation of the MSDP spectrographs will be also given.
2. I will present also short information about a recent stage of the ESA’s ROSIE program of a high-time resolution observations of the F10.7 cm (2850 MHz) and F30 cm (1000 MHz) solar indexes and spectra.

23 maja 2022

“Massive stars from various simulations: different, but why?”

dr Dorottya Szécsi (Instytut Astronomii, Uniwersytet Mikołaja Kopernika)

The evolution of massive stars is the basis of several astrophysical investigations, from predicting gravitational-wave event rates to studying star-formation and stellar populations in clusters. However, 1D simulations of massive stars, especially those above 40 M, are subject to serious uncertainties. I present a comparison between five published sets of stellar models from the PARSEC, MIST/MESA, Geneva, BPASS and BoOST/Bonn simulations at near-solar composition. The different methods adopted by the stellar evolution codes when the Eddington-limit is exceeded inside massive stars can result in up to 18% difference in terms of ionizing radiation coming from stellar populations. For the same reason, the mass of the remaining black-hole can vary up to 20 M between various sets of models. These differences are important, as they can lead to strikingly different results in explaining observations of stellar populations such as gravitational-wave event rate predictions. Any set of massive star models should be applied with caution, keeping in mind that evolutionary predictions for very massive stars have not yet reached a scientific consensus.

Related publication

30 maja 2022

“Search for black holes using gravitational microlensig events observed by Gaia”

mgr Katarzyna Kruszyńska (Obserwatorium Astronomiczne, Uniwersytet Warszawski)

On the 19th of December 2013 Gaia Space Satellite was launched by the European Space Agency. Its main goal is to measure proper motions and parallaxes of over 1 billion stars in the Milky Way. However, ever since the first data was acquired in 2014, Gaia has observed much more than that. Up to this day its alerting system of sudden change in brightness of observed sources AlertPipe has detected around 18’000 transients. More than 300 of them have been classified as microlensing candidates from all over the sky, with Gaia16aye, Gaia18cbf, Gaia19bld, Gaia19dke and Gaia20fnr as spectacular examples among them.
Gravitational microlensing is an effect of General Relativity that allows us to see the invisible. A white dwarf, neutron star or a black hole, which normally we would not be able to observe, can pass in front of a star within the Galaxy and magnify its light in a characteristic manner. By searching for such events, we can learn more about the origins of the dark remnants of stellar evolution, their distribution and abundance in the Milky Way and their properties, like mass or velocity.
Microlensing events detected and observed by Gaia offer a possibility for registering not only photometric effect, but also its astrometric counterpart. This will provide additional data that will help break degeneracies for single source-single lens events, which might lead to mass measurements of lenses and, in particular, to discovering lensing black holes.
I will present the most interesting events discovered by the Gaia Alerts, in particular the analysis of one of the longest events ever found, Gaia18cbf with its time-scale of nearly 500 days. The lens properties derived based on Gaia and follow-up data suggest it is a dark remnant at about 4 Solar masses.

prezentacja do pobrania

6 czerwca 2022

“PRECISEly localising and timing FRBs — hunting cosmic flashes with VLBI”

dr Franz Kirsten (ASTRON | Onsala Space Observatory)

Fast radio bursts (FRB) are millisecond duration, extremely bright bursts of extragalactic origin. Despite a known population of ~1000 sources, we still do not know their progenitors, let alone the emission mechanism generating these flashes in the radio band. Most FRBs have only been seen once while some FRBs burst repeatedly, the so-called repeating FRBs. One key aspect needed to understand the nature of fast radio bursts (FRB) is their precise location. Simply knowing what type of host galaxies they are emitted from is not quite sufficient — it is the local environment, e.g. star forming or not; association with a persistent counterpart or not — that can give us insights on the type of objects that we can expect to emit FRBs. The astrometric precision required for such environmental studies is of order milliarcseconds, a resolution that can only be achieved with VLBI. In this talk I will discuss the latest results of our ad-hoc VLBI campaign called PRECISE. As of late, we doubled the number of repeating FRBs with a milliarcsecond-localisation. One of our targets, FRB20200120E, proved to be in a globluar cluster, challenging models that invoke a young magnetar formed via a core-collapse supernova as FRB progenitors. On the other hand, this source’s bursts exhibit microstructure that is similar to what is seen in giant pulses from the Crab pulsar, tightening the link between extragalactic FRBs and young Galactic pulsars.

13 czerwca 2022

“Gaia Data Release 3 Day: Press Conference and Lecture”

prof. dr hab. Łukasz Wyrzykowski (Obserwatorium Astronomiczne, Uniwersytet Warszawski)

In agreement with the speaker, Prof. Łukasz Wyrzykowski of the Warsaw Astronomical Observatory, the last IA seminar of the semester will be held as part of the unusual ceremonial opening event of the third, largest to date, archive of data from the European Space Agency’s Gaia space mission (, Gaia DR3). Gaia is an outstanding survey of approx. 2 billion of stars in which Polish astronomers actively participate, and Prof. Wyrzykowski is the leader of the Polish Gaia team.

A webcast of the event and accompanying lecture will be available at The meeting will take place on June 13, 2022, from 9:55 a.m. to 12:15 p.m. at the Warsaw University Astronomical Observatory, 4 Ujazdowskie Avenue, lecture hall of the Warsaw Botanical Garden.

See the event program received from the organizers, copied in the attachment below.

zaproszenie do pobrania