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BEGIN:VEVENT
SUMMARY:Modeling Dark Matter Halo Spin using Observations and Simulations:
  application to UGC 5288
DTSTART;VALUE=DATE-TIME:20230322T150300Z
DTEND;VALUE=DATE-TIME:20230322T150500Z
DTSTAMP;VALUE=DATE-TIME:20240704T115709Z
UID:indico-contribution-56-278@meetings.aip.de
DESCRIPTION:Speakers: Ansar Sioree (Indian Institute of Astrophysics\, Ben
 galuru)\nDark matter halo properties are well studied in cosmological simu
 lations but are very challenging to estimate from observations. The dark m
 atter halo density profile of galaxies from observations has been modeled 
 previously using multiple probes that trace the dark matter potential\, ho
 wever\, the angular momentum distribution of the dark matter halos is stil
 l a subject of debate. In this study\, we demonstrate a method for estimat
 ing the halo spin and halo concentration of a low luminosity\, gas-rich dw
 arf galaxy by forward modeling disk properties derived from observations o
 f the stellar and gas surface densities\, the disk scale length\, the neut
 ral hydrogen rotation curve\, the bar length\, and bar ellipticity. Our me
 thod is a combination of semi-analytical techniques and N-body/SPH simulat
 ions. Here\, we apply our method to the low surface brightness (LSB) dwarf
  galaxy UGC 5288\, and model its dark matter halo with both a cuspy Hernqu
 ist profile and a flat-core pseudo-isothermal profile. We find that the be
 st match with observations is a pseudo-isothermal halo model with core rad
 ius r$_{c}$ = 0.23 kpc and a high halo spin $\\lambda$ = 0.08 at the viria
 l radius. These findings are consistent with previous rotation curve estim
 ates of the halo density profile of UGC 5288\, as well as the theoreticall
 y predicted high spins of dwarf LSB galaxies. We finally compare our resul
 ts with the halo spin distribution of barred galaxies in one of the high r
 esolution cosmological magneto-hydrodynamical simulations TNG-50. We find 
 that our model predicts halo spin distribution of UGC5288 up to a ballpark
  value\, although\, there remain significant uncertainties due to the form
 ation history of the dark matter halos from the TNG50 simulations. We also
  find that the inner halo spin in barred galaxies is different from that o
 f unbarred ones\, and the halo spin shows weak correlations with bar prope
 rties.\n\nhttps://meetings.aip.de/event/20/contributions/278/
LOCATION:Haus H\, Telegrafenberg
URL:https://meetings.aip.de/event/20/contributions/278/
END:VEVENT
BEGIN:VEVENT
SUMMARY:Large-scale gas flows in the Local Group
DTSTART;VALUE=DATE-TIME:20230323T103000Z
DTEND;VALUE=DATE-TIME:20230323T104500Z
DTSTAMP;VALUE=DATE-TIME:20240704T115709Z
UID:indico-contribution-56-212@meetings.aip.de
DESCRIPTION:Speakers: Philipp Richter (University of Potsdam)\nIn this tal
 k\, I will discuss recent UV absorption-line measurements of large-scale g
 as flows in the Local Group with particular emphasis on the relation betwe
 en LG galaxy kinematics and CGM/IGrM gas dynamics. New results from an HST
 /COS all-sky survey of gas in the Milky Way's CGM and the Local Group IGrM
  will be presented and compared with predictions from the HESTIA simulatio
 ns .\n\nhttps://meetings.aip.de/event/20/contributions/212/
LOCATION:Haus H\, Telegrafenberg
URL:https://meetings.aip.de/event/20/contributions/212/
END:VEVENT
BEGIN:VEVENT
SUMMARY:The dynamical mass of the Large Magellanic Cloud as measured by it
 s system of star clusters
DTSTART;VALUE=DATE-TIME:20230323T101500Z
DTEND;VALUE=DATE-TIME:20230323T103000Z
DTSTAMP;VALUE=DATE-TIME:20240704T115709Z
UID:indico-contribution-56-206@meetings.aip.de
DESCRIPTION:Speakers: Florian Niederhofer (Leibniz-Institut für Astrophys
 ik Potsdam (AIP))\nThe Large and Small Magellanic Clouds (LMC and SMC) are
  the largest and most luminous dwarf satellite companions of the Milky Way
 . Due to their close proximity\, they provide a unique opportunity to stud
 y the dynamics of their resolved stellar populations in unparalleled detai
 l. Within the last years\, high-precision proper motion measurements of st
 ars within the Magellanic Clouds had a tremendous impact on our understand
 ing of the Magellanic system and its relation to our own Galaxy. To date\,
  however\, the dynamics of the star cluster systems within the two dwarf g
 alaxies has not received much attention. \nIn this contribution\, I will i
 ntroduce an ongoing observational campaign conducted by our team utilising
  the Hubble Space Telescope (HST) to precisely measure the proper motions 
 of star clusters within the LMC. The exquisite resolution of HST allows us
  to measure precise proper motions of thousands of stars within each clust
 er.\nThe measured motions of the clusters\, combined with photometric and 
 spectroscopic measurements\, will yield their full 6-dimensional phase spa
 ce information within the LMC. I will present first results of the kinemat
 ic structures that are described by clusters of various ages and within di
 fferent structural components of the galaxy. The motions of the clusters c
 an further act as a tracer of the gravitational potential of the LMC and I
  will present preliminary measurements of the mass of the LMC resulting fr
 om the dynamics of the star clusters. Despite its importance in the field 
 of Magellanic Cloud kinematics and evolution\, the mass of the LMC is only
  vaguely known and several studies disagree on it. Our cluster-based study
  will provide an additional independent measurement of the LMC's mass.\n\n
 https://meetings.aip.de/event/20/contributions/206/
LOCATION:Haus H\, Telegrafenberg
URL:https://meetings.aip.de/event/20/contributions/206/
END:VEVENT
BEGIN:VEVENT
SUMMARY:The stellar halo’s response as a probe of the LMC to MW mass rat
 io
DTSTART;VALUE=DATE-TIME:20230323T082500Z
DTEND;VALUE=DATE-TIME:20230323T084000Z
DTSTAMP;VALUE=DATE-TIME:20240704T115709Z
UID:indico-contribution-56-187@meetings.aip.de
DESCRIPTION:Speakers: Simon Rozier (Observatoire Astronomique de Strasbour
 g)\nIn the last two decades\, some arguments have accumulated for a more i
 mportant mass ratio of the Large Magellanic Cloud (LMC) to the Milky Way (
 MW) than was previously thought\, of about 10% or more. This implies that 
 the LMC has a measurable influence on the dynamics in the MW stellar halo\
 , including both stellar densities and kinematics\, as observed by Conroy 
 *et al.* (2021) and Petersen *et al.* (2021). While this merger has been p
 reviously reproduced using N-body simulations (see\, e.g.\, Garavito-Camar
 go *et al.*\, 2019)\, I will present the results of a recent study (Rozier
  *et al.*\, 2022) which aimed at modelling the merger via linear response 
 theory. More specifically\, we integrated the linearized collisionless Bol
 tzmann-Poisson system of partial differential equations using a methodolog
 y known as the matrix method. Our results display the same large scale beh
 aviour as state-of-the-art simulations\, with a dipolar over/underdense pa
 ttern related to the reflex motion of the MW\, as well as an overdense wak
 e trailing behind the LMC. These results represent an efficient way of con
 straining the LMC to MW mass ratio\, since this ratio is directly proporti
 onal (given the linear nature of the theory) to the amplitude of the relat
 ive density variations of the MW stellar halo\, both in physical and in ph
 ase space. However\, the amplitude of these variations may also depend on 
 some model parameters\, such as the structure of the MW potential (includi
 ng a possible dark matter component)\, the initial density distribution of
  the stellar halo\, as well as its initial internal kinematics. I will foc
 us on the latter source of degeneracy\, showing how the initial velocity a
 nisotropy of the stellar halo impacts its response to the LMC. Interesting
 ly enough\, it appears that the physical space density of the (dipolar) re
 flex motion is insensitive to the stellar halo’s initial velocity anisot
 ropy\, and can therefore represent an efficient probe of the LMC to MW mas
 s ratio.\n\nhttps://meetings.aip.de/event/20/contributions/187/
LOCATION:Haus H\, Telegrafenberg
URL:https://meetings.aip.de/event/20/contributions/187/
END:VEVENT
BEGIN:VEVENT
SUMMARY:The Magellanic System
DTSTART;VALUE=DATE-TIME:20230322T155000Z
DTEND;VALUE=DATE-TIME:20230322T163000Z
DTSTAMP;VALUE=DATE-TIME:20240704T115709Z
UID:indico-contribution-56-290@meetings.aip.de
DESCRIPTION:Speakers: Elena d’Onghia (UNIVERSITY of WISCONSIN–MADISON)
 \nThe Magellanic Stream is the most spectacular example of a gaseous strea
 m in the local Universe. In this review I will discuss the Stream's import
 ance for many areas of Galactic astronomy\, summarize key unanswered quest
 ions\, and identify future observations and simulations needed to resolve 
 them.\n\nhttps://meetings.aip.de/event/20/contributions/290/
LOCATION:Haus H\, Telegrafenberg
URL:https://meetings.aip.de/event/20/contributions/290/
END:VEVENT
BEGIN:VEVENT
SUMMARY:Spatio- temporal formation history and kinematics of star clusters
  in the Magellanic Clouds: Propagation of cluster formation and the LMC ba
 r
DTSTART;VALUE=DATE-TIME:20230322T145900Z
DTEND;VALUE=DATE-TIME:20230322T150100Z
DTSTAMP;VALUE=DATE-TIME:20240704T115709Z
UID:indico-contribution-56-276@meetings.aip.de
DESCRIPTION:Speakers: Dhanush Sathiavals Reselammal (Senior Research fello
 w\, IIA)\nThe Large Magellanic cloud(LMC) and Small Magellanic cloud(SMC) 
 are the nearest interacting dwarf galaxies in the local group.  And Magell
 anic clouds(MCs) have had interactions with each other as well as with the
  Milky Way. These interactions have triggered star formation in both galax
 ies\, resulting in the formation of star clusters. Thus a comprehensive an
 alysis of cluster population in MCs could indicate the structural evolutio
 n due to galaxy mergers. Our aim is to understand the age dating\, spatio-
 temporal map of cluster formation episodes\, and trace the cluster kinemat
 ics as a function of age.\nIn this study\, we used the GAIA DR3 data to ch
 aracterise the cluster population in the MCs. The clusters in the MCs is o
 btained mostly from general catalogue given by Bica et al. (2020)\, and se
 veral other recent literature. We classified the clusters as isolated and 
 merged based on projected sky coordinates. Around 2000 clusters were analy
 zed in our study based on a certain selection criteria. We used Gaia async
 hronous query to bulk handle the cluster data from Gaia archive\, after ap
 plying proper motion-parallax cut offs and faintness magnitude limit. We d
 eveloped a statistical algorithm to remove filed stars from the cluster re
 gion. We used single to multiple comparison field regions and retrieved th
 e most probable cluster members.  Using Padova-Parsec stellar evolutionary
  models\, we performed an iterative least square method to estimate the ag
 e and reddening of clusters that had sufficient members and a satisfactory
  fit of the isochrone. The spatio-temporal map of age and reddening was ob
 tained for clusters in both clouds. We traced the cluster formation episod
 es at ~ 1.6 Gyr\, 630 Myr\, 310 Myr\, and 80 Myr. The directional propagat
 ion of cluster formation is noted from the South to North of LMC over the 
 time scale of 2.8 Gyr to 10 Myr.  We are able to estimate the formation ti
 me of the LMC’s off-centered bar.  Using the proper motion data of the m
 embers we also study the proper motion of the clusters with respect to the
  field population in both the Clouds.\n\nhttps://meetings.aip.de/event/20/
 contributions/276/
LOCATION:Haus H\, Telegrafenberg
URL:https://meetings.aip.de/event/20/contributions/276/
END:VEVENT
BEGIN:VEVENT
SUMMARY:Tracing the structure and history of the Small Magellanic Cloud us
 ing CaII Triplet spectroscopy
DTSTART;VALUE=DATE-TIME:20230322T150100Z
DTEND;VALUE=DATE-TIME:20230322T150300Z
DTSTAMP;VALUE=DATE-TIME:20240704T115709Z
UID:indico-contribution-56-275@meetings.aip.de
DESCRIPTION:Speakers: Mahdieh Navabi (The University of Surrey)\nThe Small
  Magellanic Cloud (SMC)\, as one of the nearest galaxies to us\, provides 
 a superb laboratory for studying its stellar populations in exquisite deta
 il.  We collected the largest sample of SMC red giant branch (RGB) stars (
 ~6000) observed using the AAOmega spectrograph fed by the Two Degree Field
  (2dF) multi-object system at the Anglo-Australian Telescope of the Siding
  Spring Observatory (Australia).  The metallicities were recovered using a
  direct estimation of [Fe/H] from the equivalent widths of the Calcium tri
 plet (CaT). We discuss the potential implications of the metallicity gradi
 ents and compare these to previous determinations of star formation histor
 ies to assess the consequences of encounters between the SMC and Large Mag
 ellanic Cloud.\n **Finally\, we discuss our findings in the context of the
  correlation that exists between metallicity and dynamical mass in dwarf I
 rregular systems\, of which the SMC is our closest example.**\n\nhttps://m
 eetings.aip.de/event/20/contributions/275/
LOCATION:Haus H\, Telegrafenberg
URL:https://meetings.aip.de/event/20/contributions/275/
END:VEVENT
BEGIN:VEVENT
SUMMARY:Stromgren photometric metallicity map of the Small Magellanic Clou
 d using Gaia DR3-XP spectra.
DTSTART;VALUE=DATE-TIME:20230322T145700Z
DTEND;VALUE=DATE-TIME:20230322T145900Z
DTSTAMP;VALUE=DATE-TIME:20240704T115709Z
UID:indico-contribution-56-274@meetings.aip.de
DESCRIPTION:Speakers: Abinaya Ondivillu Omkumar (Leibniz Institute for Ast
 rophysics Potsdam (AIP))\nObservational studies have identified several su
 b-structures in different regions of the Magellanic Clouds (MCs). One such
  interesting sub-structure in the Small Magellanic Cloud (SMC) is a dual p
 opulation of intermediate-age giant stars which are spatially and kinemati
 cally distinct. Comparisons with simulations suggest that the foreground p
 opulation might be tidally stripped from the SMC main-body\, but their ori
 gin is not clearly proven yet. If we have homogeneous metallicity measurem
 ents of the sources from these sub-structures\, we can see whether they ar
 e having similar values or different from the main-body population. Hence\
 , metallicity measurements of these populations will help us understand th
 eir origin and/or their association with the Large Magellanic Cloud (LMC).
  However\, spectroscopic metallicities are only available for a few thousa
 nd sources and also from different instruments at various spectral resolut
 ions\, which makes it difficult to compare their values and draw conclusio
 ns from the results. The third data release of Gaia has provided us with ~
  0.17 million XP spectra of the SMC sources as faint as ~ 18 mag in G-band
  which are spread across ~ 10° from the SMC center. Stromgren photometry 
 is a well-established method to estimate the photometric metallicities. Ga
 ia BP spectra covers the u\, v\, b and y Strömgren bands. Using the estim
 ated Strömgren magnitudes from the Gaia BP spectra\, we calibrated the [F
 e/H] values. We compared a subset of the SMC sources that has [Fe/H] value
 s from the high-resolution (~ 22\,500) APOGEE spectrograph for the validat
 ion of our method. Using those metallicity measurements\, we produce a hom
 ogeneous metallicity map of the entire SMC also with a higher spatial reso
 lution and study the metallicity of different sub-structures to shed light
  on their possible origin and/or their associations with the LMC.\n\nhttps
 ://meetings.aip.de/event/20/contributions/274/
LOCATION:Haus H\, Telegrafenberg
URL:https://meetings.aip.de/event/20/contributions/274/
END:VEVENT
BEGIN:VEVENT
SUMMARY:Ages\, metallicities and structure of stellar clusters in the Mage
 llanic Bridge
DTSTART;VALUE=DATE-TIME:20230322T145500Z
DTEND;VALUE=DATE-TIME:20230322T145700Z
DTSTAMP;VALUE=DATE-TIME:20240704T115709Z
UID:indico-contribution-56-233@meetings.aip.de
DESCRIPTION:Speakers: Raphael A. P. Oliveira (IAG - USP)\nThe Magellanic B
 ridge is a tidally-stripped structure located between the Magellanic Cloud
 s and contains hundreds of stellar clusters and associations\, which can h
 elp understanding the origin and evolution of the entire Magellanic Clouds
 -Milky Way (MW) system. Two main competing models describe the formation o
 f the pair LMC-SMC: the LMC captured the SMC about 2 Gyr ago and they are 
 in a bound orbit around the MW\, or it is an old interacting sys- tem in i
 ts first perigalactic passage\, falling into the MW potential ~2 Gyr ago. 
 The Bridge should have been formed during a collision between the Clouds a
 round 200 Myr ago\, imply- ing kinematic signatures\, as well as age and m
 etallicity gradients along its extension. This work combines deep photomet
 ric data from VISCACHA and SMASH surveys in order to ex- plore this questi
 on\, by homogeneously deriving age\, metallicity\, distance\, structural p
 arame- ters and mass of 35 Bridge objects with modern statistical tools su
 ch as Markov chain Monte Carlo and machine learning. In particular\, the m
 ass determination corrected by completeness can help to estimate the Bridg
 e stellar mass and constrain the dynamical models. A spectro- scopic follo
 w-up in the CaII triplet region is also carried out for clusters older tha
 n 1 Gyr in the Bridge and other SMC regions\, to derive metallicity and ra
 dial velocity which\, combined with Gaia proper motions\, allow us to obta
 in a 6D phase-space vector. Preliminary results show a good agreement betw
 een VISCACHA and SMASH data and also that\, despite the presence of some o
 ld objects at larger distances\, the clusters in the middle of the Bridge 
 are younger (~ 10-100 Myr) and more metal-rich than those closer to the SM
 C Wing. In this poster\, we will review the recent results of the VISCACHA
  collaboration\, present a detailed approach to age and metallicity gradie
 nts in the Bridge\, and discuss the evidence on the most probable for- mat
 ion model of the pair LMC-SMC.\n\nhttps://meetings.aip.de/event/20/contrib
 utions/233/
LOCATION:Haus H\, Telegrafenberg
URL:https://meetings.aip.de/event/20/contributions/233/
END:VEVENT
BEGIN:VEVENT
SUMMARY:Exploring the kinematics of the Magellanic stellar periphery
DTSTART;VALUE=DATE-TIME:20230322T143000Z
DTEND;VALUE=DATE-TIME:20230322T145500Z
DTSTAMP;VALUE=DATE-TIME:20240704T115709Z
UID:indico-contribution-56-179@meetings.aip.de
DESCRIPTION:Speakers: Lara Cullinane (JHU)\nRecent panoramic maps of the M
 agellanic system have revealed a wealth of low-surface-brightness stellar 
 substructures surrounding both the Large and Small Magellanic Clouds (LMC/
 SMC)\; clear evidence of tidal interactions between the two Clouds\, as we
 ll as with the Milky Way. However\, the interaction history of the Magella
 nic system beyond the most recent LMC/SMC close passage remains poorly con
 strained. In order to shed light on this issue\, we have instigated a larg
 e-scale spectroscopic follow-up of stars in low-density features extending
  to distances beyond 20 degrees from the Clouds’ centres. We use a combi
 nation of Gaia astrometry and spectroscopically-derived radial velocities\
 , obtained with 2dF+AAOmega on the Anglo-Australian Telescope\, to determi
 ne 3D kinematics for thousands of stars in these features and the extended
  outer disks of the two Clouds. In this talk\, I will discuss new results 
 focussed on the southern outskirts of the LMC. Several substructures in th
 is region\, including claw-like features extending from the southern LMC d
 isk\, and a long arm-like substructure wrapping around the southern LMC ou
 tskirts toward the eastern SMC disk\, are found to be predominantly compos
 ed of perturbed LMC disk material. All substructures show significant pert
 urbations from equilibrium disk kinematics\, with one claw-like feature di
 splaying out-of-plane velocities exceeding 60 km/s and apparent counter-ro
 tation relative to the LMC’s disk. Such complex features plausibly requi
 re multiple previous interactions with the SMC to fully explain the observ
 ed dynamical properties. This demonstrates the efficacy of our data as a b
 enchmark for assessing dynamical models to disentangle the origins of Mage
 llanic substructures\, the masses of the two Clouds\, and the evolution of
  the Magellanic system. I will also briefly discuss new efforts to conduct
  analogous kinematic mapping of M33 and its outskirts\, which aim to simil
 arly understand the evolution of this massive dwarf galaxy.\n\nhttps://mee
 tings.aip.de/event/20/contributions/179/
LOCATION:Haus H\, Telegrafenberg
URL:https://meetings.aip.de/event/20/contributions/179/
END:VEVENT
BEGIN:VEVENT
SUMMARY:The impact of massive satellites on the kinematic properties of th
 e Local Group satellite galaxies
DTSTART;VALUE=DATE-TIME:20230323T085500Z
DTEND;VALUE=DATE-TIME:20230323T091000Z
DTSTAMP;VALUE=DATE-TIME:20240704T115709Z
UID:indico-contribution-56-211@meetings.aip.de
DESCRIPTION:Speakers: Nicolas Garavito Camargo (Flatiron Institute)\nThe v
 ast multidimensional data observed in the Local Group (LG) provide us with
  the unique opportunity of comparing the properties of the LG with their s
 imulated analogs in cosmological simulations. In such a comparison it has 
 been found that the observed kinematic properties of satellite galaxies in
  the LG are very unusual when compared to cosmological simulations. In bot
 h the Milky Way and the Andromeda galaxy\, satellite galaxies are found to
  be distributed and moving in flattened co-rotating systems. A configurati
 on that is only found in 0.3-3% of the simulated galaxies. Such disagreeme
 nt is known as the planes of satellites problem. More intriguing is that t
 he disagreement is persistent even in different dark matter models and unl
 ike other 'small-scale problems' it is not sensitive to the inclusion of b
 aryonic processes in the simulations. \n\nIn this talk\, I would provide n
 ew evidence of how a natural explanation of the observed co-rotation patte
 rns are associated with the out-of-equilibrium state of the galaxy.  Recen
 t missions and surveys\, such as Gaia\, have revealed that the Milky Way g
 alaxy is not in dynamical equilibrium. The barycenter of the galaxy is mov
 ing due to the ongoing interaction with the Large Magellanic Cloud. Using 
 the Latte hydrodynamical high-resolution zoom-in simulation of MW-like gal
 axies  A massive satellite moves the reference frame of the inner halo wit
 h respect to the outer halo. Resulting in some cases in apparent co-rotati
 on motions of the outer halo when observed from the disk of the galaxies. 
 I'll show how the orbital poles distribution of outer halo objects is stro
 ngly affected during the pericenter passages. I will further discuss what 
 properties of the mergers\, mass ratios\, pericenter passages\, and eccent
 ricities\, would be needed to reproduce the observational co-rotations pat
 tern observed in the Milky Way and M31.\n\nThese results provide new insig
 ht into how the observed co-ration patterns can inform us about the out-of
 -equilibrium stare of the galaxy. Which is a natural explanation that does
  not depend on the nature of the Dark Matter particle and in baryonic proc
 esses. In the talk\, I will also discuss the importance of taking into acc
 ount the dynamic state of the LG when comparing it with LG analogs in cosm
 ological simulations.\n\nhttps://meetings.aip.de/event/20/contributions/21
 1/
LOCATION:Haus H\, Telegrafenberg
URL:https://meetings.aip.de/event/20/contributions/211/
END:VEVENT
BEGIN:VEVENT
SUMMARY:The Mass of the Large Magellanic Cloud
DTSTART;VALUE=DATE-TIME:20230322T163000Z
DTEND;VALUE=DATE-TIME:20230322T164500Z
DTSTAMP;VALUE=DATE-TIME:20240704T115709Z
UID:indico-contribution-56-205@meetings.aip.de
DESCRIPTION:Speakers: Laura Watkins (AURA for ESA\, STScI)\nThe Large Mage
 llanic Cloud (LMC) is the largest of the dwarf galaxies orbiting the Milky
  Way (MW). It sits in a very interesting niche within the Local Group (LG)
 \, being both sufficiently different in mass than the MW to be an interest
 ing comparison and sufficiently massive to be a major player in the MW's r
 ecent history and present state. In particular\, it is massive enough to h
 ave a significant and observable effect on the MW itself and on stellar st
 reams in the MW halo\, though the extent of its influence depends on its m
 ass. Its mass is also interesting as a benchmark against which we can inte
 rpret observations of more distant objects.\n\nBennet et al. (2022) recent
 ly measured proper motions (PMs) -- using HST\, Gaia or both HST and Gaia 
 together -- for a set of globular clusters (GCs) in the LMC. Supplemented 
 with literature distances and line-of-sight velocities\, this provides a c
 atalogue of 6D phase space information for 32 LMC GCs. These are ideal dyn
 amical tracers of the LMC’s potential.\n\nIn my talk\, I will describe h
 ow we have used this set of tracers to estimate the anisotropy and mass of
  the LMC within 13 kpc\, and then how we have used these estimates to extr
 apolate the LMC’s virial mass. This is the first time that this family o
 f mass estimation methods has been applied to the LMC\, and I will also co
 mpare our estimate against other estimates of the LMC’s mass via differe
 nt methods and discuss the broader context of our results.\n\nhttps://meet
 ings.aip.de/event/20/contributions/205/
LOCATION:Haus H\, Telegrafenberg
URL:https://meetings.aip.de/event/20/contributions/205/
END:VEVENT
BEGIN:VEVENT
SUMMARY:Velocity dipoles in the halos of FIRE simulated galaxies
DTSTART;VALUE=DATE-TIME:20230323T091600Z
DTEND;VALUE=DATE-TIME:20230323T091800Z
DTSTAMP;VALUE=DATE-TIME:20240704T115709Z
UID:indico-contribution-56-273@meetings.aip.de
DESCRIPTION:Speakers: Alex Riley (Durham University)\nOne major source of 
 disequilibrium in the Milky Way is its most massive satellite\, the LMC. K
 inematics of distant halo tracers show a velocity dipole in the Milky Way 
 halo\, which has been interpreted using N-body simulations as the LMC indu
 cing a reflex motion in the Milky Way disk. In this talk\, I discuss apply
 ing this framework to more realistic halos comprised of substructure from 
 the FIRE-2 zoom-in cosmological simulations. Velocity dipoles are resolved
  in Milky Way-mass hosts experiencing an LMC-like interaction and evolve i
 n a manner consistent with a two-body interaction between the stellar disk
  and the LMC analog. The magnitude of this dipole can be used to constrain
  the mass ratio of the Milky Way and LMC. However\, satellite galaxies and
  stellar streams can create velocity dipoles in systems that aren't experi
 encing a major satellite accretion\, suggesting that care must be taken to
  remove substructure in the Milky Way observations.\n\nhttps://meetings.ai
 p.de/event/20/contributions/273/
LOCATION:Haus H\, Telegrafenberg
URL:https://meetings.aip.de/event/20/contributions/273/
END:VEVENT
BEGIN:VEVENT
SUMMARY:SMASHing the Small Magellanic Cloud: star formation history
DTSTART;VALUE=DATE-TIME:20230323T091400Z
DTEND;VALUE=DATE-TIME:20230323T091600Z
DTSTAMP;VALUE=DATE-TIME:20240704T115709Z
UID:indico-contribution-56-272@meetings.aip.de
DESCRIPTION:Speakers: Sakowska Joanna (University of Surrey)\nI present wo
 rk on a spatially resolved\, global star-formation history (SFH) of the Sm
 all Magellanic Cloud (SMC). I use the unprecedented deep photometric data 
 (g~24 magnitude) from the Survey of the MAgellanic Stellar History (SMASH)
  survey utilising the Dark Energy Camera (DECAm) on the NOAO Blanco 4 m Te
 lescope. The SFH is quantitatively obtained using colour-magnitude diagram
  (CMD) fitting techniques. For the first time\, optical depth effects alon
 g the SMC's line-of-sight are considered in the SFHs derived. \n\nI focus 
 on the SFH of a shell-like structure located in the northeastern part of t
 he SMC. I compare this SFH to the SFHs of several SMC regions. I discuss t
 he results of such comparison with a focus on whether the recent and high 
 star formation activity in the shell-like structure is correlated with the
  enhancements of star formation at young ages in the SMC. Finally\, I put 
 my results in the context of the tidal interactions between the SMC and it
 s larger companion\, the Large Magellanic Cloud (LMC) to shed light on the
  origins of the shell-like feature.\n\nhttps://meetings.aip.de/event/20/co
 ntributions/272/
LOCATION:Haus H\, Telegrafenberg
URL:https://meetings.aip.de/event/20/contributions/272/
END:VEVENT
BEGIN:VEVENT
SUMMARY:Direct Observations of the Primordial Magellanic Corona
DTSTART;VALUE=DATE-TIME:20230323T091200Z
DTEND;VALUE=DATE-TIME:20230323T091400Z
DTSTAMP;VALUE=DATE-TIME:20240704T115709Z
UID:indico-contribution-56-271@meetings.aip.de
DESCRIPTION:Speakers: Dhanesh Krishnarao (Colorado College)\nRecent measur
 ements of a high mass for the LMC imply the LMC should host a massive Mage
 llanic Corona\, a collisionally ionized\, warm-hot gaseous halo at the vir
 ial temperature $\\sim10^{5.4}$ K initially extending out to the virial ra
 dius (100 - 130 kpc). Such a primordial Magellanic Corona would have shape
 d and fed the formation of the Magellanic Stream (e.g. Lucchini et al. 202
 0). Now\, we have discovered direct observational evidence for this Magell
 anic Corona via highly ionized oxygen (O VI)\, and indirect detections via
  C IV and Si IV\, seen in UV absorption toward background quasars using da
 ta from HST and FUSE (Krishnarao et al. 2022\, Nature)\, We find the Magel
 lanic Corona is part of a pervasive multiphase Magellanic CGM seen in many
  ionization states with a declining projected radial profile out to at lea
 st 35 kpc from the LMC and a total ionized CGM mass of $10^{(9.1 +/- 0.2)}
 M_\\odot$. This independently confirms the large mass of the LMC as dynami
 cally predicted. The evidence for the Magellanic Corona is a crucial step 
 forward in characterizing the Magellanic Group and its nested evolution wi
 th the Local Group and will help us diagnose the impact of galactic scale 
 winds emerging from star formation feedback in the LMC. In future work fro
 m an accepted HST Legacy Archival Program (PI: Kat Barger)\, we will direc
 tly measure and map this galactic scale outflow and the Magellanic Corona 
 using hundreds of sightlines towards stars in the LMC from the ULYSSES pro
 gram (Roman-Duval et al. 2020).\n\nhttps://meetings.aip.de/event/20/contri
 butions/271/
LOCATION:Haus H\, Telegrafenberg
URL:https://meetings.aip.de/event/20/contributions/271/
END:VEVENT
BEGIN:VEVENT
SUMMARY:Multiband study of Shell region in the North-Eastern Small Magella
 nic Cloud using UVIT/AstroSat and Gaia
DTSTART;VALUE=DATE-TIME:20230323T091000Z
DTEND;VALUE=DATE-TIME:20230323T091200Z
DTSTAMP;VALUE=DATE-TIME:20240704T115709Z
UID:indico-contribution-56-232@meetings.aip.de
DESCRIPTION:Speakers: Sipra Hota (Indian Institute of Astrophysics)\nThe S
 mall Magellanic Cloud (SMC) is one of the nearest\, gas-rich interacting d
 warf satellites of the Milky Way and the companion of the Large Magellanic
  Cloud (LMC). The interactions with the LMC and/or with the Milky Way play
  a significant role in the evolution of the SMC. With its widespread star 
 formation and low metallicity\, the SMC is one of the best test beds to st
 udy star formation and evolution in a tidally driven environment. The shel
 l region located in the North-East outskirt of SMC is a tidally affected r
 egion where there has been recent star formation. Our aim is to understand
  the spatial distribution\, age dating\, and kinematics of the young popul
 ation in this part of the tidally affected SMC disk.\nWe obtained far-UV (
 FUV) images of eleven fields in the North-East SMC Shell region using the 
 UltraViolet Imaging Telescope (UVIT) on AstroSat. We created science-ready
  images and performed PSF photometry. We cross-matched the detected FUV st
 ars with the Gaia EDR3 data and eliminated foreground stars to create an F
 UV catalog of a few thousand stars. We created FUV-optical color-magnitude
  diagrams and estimated the ages of the stellar population using isochrone
 s to map the morphology\, density\, and tidal features of stars younger th
 an ∼ 600 Myr. The identified episodes of star formation are used to cons
 train the details of the recent interaction of the SMC with the LMC. We al
 so estimated the dispersion in the proper motion of the young and old star
 s to explore the kinematics of the North-East part of the outer SMC disk.\
 n\nhttps://meetings.aip.de/event/20/contributions/232/
LOCATION:Haus H\, Telegrafenberg
URL:https://meetings.aip.de/event/20/contributions/232/
END:VEVENT
BEGIN:VEVENT
SUMMARY:The Formation of Magellanic System and the total mass of Large Mag
 ellanic Cloud
DTSTART;VALUE=DATE-TIME:20230322T164500Z
DTEND;VALUE=DATE-TIME:20230322T170000Z
DTSTAMP;VALUE=DATE-TIME:20240704T115709Z
UID:indico-contribution-56-208@meetings.aip.de
DESCRIPTION:Speakers: Jianling WANG (National Astronomical Observatories\,
  Chinese Academy of Sciences)\nThe Magellanic Stream is unique to sample t
 he MW potential from ~50kpc to 300\nkpc\, and is also unique in constraini
 ng the LMC mass\, an increasingly important\nquestion for the Local Group/
 Milky Way modeling.  I will compare on the\nstrengths and weaknesses of th
 e two types of  models (tidal and ram-pressure) of\nthe Magellanic Stream 
 formation.  I will present our modeling for the formation\nof the Magellan
 ic System\, including those of the most recent discoveries in the\nStream\
 , in the Bridge and at the outskirts of Magellanic Clouds. This model has\
 nbeen successful in predicting most recent observations in both properties
  of\nstellar and gas phase. It appears that it is an over-constrained mode
 l and\nprovides a good path to investigate the Stream properties.  In part
 icular\, this\nmodel requires LMC mass significantly smaller than 10^11 Ms
 un.\n\nhttps://meetings.aip.de/event/20/contributions/208/
LOCATION:Haus H\, Telegrafenberg
URL:https://meetings.aip.de/event/20/contributions/208/
END:VEVENT
BEGIN:VEVENT
SUMMARY:The LMC-induced distortion of the Milky Way (and vice versa)
DTSTART;VALUE=DATE-TIME:20230323T084000Z
DTEND;VALUE=DATE-TIME:20230323T085500Z
DTSTAMP;VALUE=DATE-TIME:20240704T115709Z
UID:indico-contribution-56-209@meetings.aip.de
DESCRIPTION:Speakers: Michael Petersen (University of Edinburgh)\nThe ongo
 ing interaction of the Large Magellanic Cloud (LMC) and Milky Way (MW) all
 ows for constraint of the mass (and profile) of both. Through comparison o
 f models of the interaction and 6d halo star data\, we determined that the
  LMC is currently both pulling the MW stellar disc away from the barycentr
 e of the MW at 30 km/s\, as well as inducing a measurable distortion in th
 e outer halos of both the MW and LMC. These effects emphasise the need to 
 move away from equilibrium models when attempting to measure the mass dist
 ributions of either. Models for the M33-M31 interaction -- a similar mass 
 ratio -- reveal a markedly different interaction\, with significantly smal
 ler effects owing to the orbital history.\n\nhttps://meetings.aip.de/event
 /20/contributions/209/
LOCATION:Haus H\, Telegrafenberg
URL:https://meetings.aip.de/event/20/contributions/209/
END:VEVENT
BEGIN:VEVENT
SUMMARY:The OC stream's evolution in the dark matter haloes of the Milky W
 ay and the LMC
DTSTART;VALUE=DATE-TIME:20230323T080000Z
DTEND;VALUE=DATE-TIME:20230323T082500Z
DTSTAMP;VALUE=DATE-TIME:20240704T115709Z
UID:indico-contribution-56-178@meetings.aip.de
DESCRIPTION:Speakers: Denis Erkal (University of Surrey)\nThe OC stream is
  a dwarf galaxy stream and is one of the longest and best-measured streams
  in the Galaxy\, spanning over 200 degrees on the sky. It extends from the
  inner Milky Way ($\\sim$15 kpc) to the outer halo ($\\sim$60 kpc)\, givin
 g us a great tool with which to measure our Galaxy's dark matter halo. In 
 addition\, portions of the stream pass remarkably close to the LMC ($\\sim
 $5 kpc)\, allowing us to simultaneously measure the properties of our Gala
 xy and the LMC. By combining data from Gaia DR3 with the S5 survey\, LAMOS
 T\, SDSS\, and APOGEE\, I will present a 6D view of the stream. In light o
 f this powerful data\, we fit the OC stream using a flexible model of the 
 Milky Way halo and the LMC. In particular\, we measure the Milky Way's mas
 s to a precision of 4% in the middle of the stream's radial extent\, $\\si
 m$2.85$\\times10^{11}M_\\odot$ at $\\sim$32.4 kpc. We also infer a highly 
 flattened dark matter halo of the Milky Way\, with the data preferring an 
 oblate (q = $\\sim$0.55) and prolate (q = $\\sim$1.40) halo over a spheric
 al one. Interestingly\, we find that both of these haloes are producing a 
 similar forcefield in the orbital plane of the OC stream\, suggesting they
  may be attempting to mimic a forcefield which cannot be described with by
  a flattened halo. We also measure the LMC's dark matter halo. In particul
 ar\, we find the LMC has a mass of $\\sim1.3\\times10^{11} M_\\odot$\, whi
 ch is one-sixth the Milky Way's virial mass. Our fits also suggest that th
 e LMC's dark matter halo must extend out to at least $\\sim$53 kpc from th
 e LMC\, consistent with the LMC being on first approach to the Milky Way. 
 Finally\, we find that the OC stream's close passage with the LMC occurs $
 \\sim$300 Myr ago. Since the OC stream is very sensitive to the LMC's loca
 tion at this time\, this allows us to better constrain the LMC's past orbi
 t up to that time. For the first time\, we constrain the amount of dynamic
 al friction the LMC has experienced and find that it is consistent with wh
 at is expected given the LMC's substantial dark matter halo. I will end wi
 th the future directions of this work and how these results can be used to
  constrain alternative gravity and alternative dark matter models.\n\nhttp
 s://meetings.aip.de/event/20/contributions/178/
LOCATION:Haus H\, Telegrafenberg
URL:https://meetings.aip.de/event/20/contributions/178/
END:VEVENT
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