Ruprecht-Karls-Universität Heidelberg

Dr. Manuel Arca Sedda


Astronomisches Rechen-Institut



Büro
Weberstr. 13, Room W.E-03

Post-Adresse
Zentrum für Astronomie der Universität Heidelberg
Astronomisches Rechen-Institut
Mönchhofstr. 12-14
69120 Heidelberg





Forschungsgebiete
I am interested in understanding the interplay between black holes at all the scales, from stellar to supermassive, and their nursing environments, particularly stellar and nuclear clusters. To pursue this line of research, I use a multi-facet approach to investigate simultaneously stellar dynamics, black hole formation, and gravitational waves emission. One of the most exciting perspectives of this technique is the possibility to bridge different physical processes that govern the evolution of stellar ensambles.



25.
11/2020
Arca Sedda, Manuel; Berry, Christopher P. L. et al.
The missing link in gravitational-wave astronomy: discoveries waiting in the decihertz range
CQGra 37, u5011(2020)

24.
11/2020
Mardini, Mohammad K.; Placco, Vinicius M. et al. (inc. Sedda, Manuel Arca; Berczik, Peter; Mazzarini, Matteo; Avramov, Branislav)
Cosmological Insights into the Early Accretion of r-process-enhanced Stars. I. A Comprehensive Chemodynamical Analysis of LAMOST J1109+0754
ApJ 903, 88(2020)

23.
11/2020
Arca Sedda, Manuel; Berry, Christopher P. L. et al.
The missing link in gravitational-wave astronomy: discoveries waiting in the decihertz range
CQGra 37, u5011(2020)

22.
10/2020
Schiavi, Riccardo; Capuzzo-Dolcetta, Roberto et al. (inc. Arca-Sedda, Manuel)
Future merger of the Milky Way with the Andromeda galaxy and the fate of their supermassive black holes
A&A 642, A30(2020)

21.
10/2020
Arca Sedda, Manuel; Gualandris, Alessia et al.
On the Origin of a Rotating Metal-poor Stellar Population in the Milky Way Nuclear Cluster
ApJ 901, L29(2020)

20.
10/2020
Do, Tuan; David Martinez, Gregory et al. (inc. Arca Sedda, Manuel)
Revealing the Formation of the Milky Way Nuclear Star Cluster via Chemo-dynamical Modeling
ApJ 901, L28(2020)

19.
5/2020
Arca Sedda, Manuel; Mapelli, Michela et al.
Fingerprints of Binary Black Hole Formation Channels Encoded in the Mass and Spin of Merger Remnants
ApJ 894, 133(2020)

18.
5/2020
Sedda, Manuel Arca; Mapelli, Michela et al.
Fingerprints of Binary Black Hole Formation Channels Encoded in the Mass and Spin of Merger Remnants
ApJ 894, 133(2020)

17.
3/2020
Arca Sedda, Manuel
Author Correction: Dissecting the properties of neutron star-black hole mergers originating in dense star clusters
CmPhy 3, 67(2020)

16.
3/2020
Arca Sedda, Manuel
Birth, Life, and Death of Black Hole Binaries around Supermassive Black Holes: Dynamical Evolution of Gravitational Wave Sources
ApJ 891, 47(2020)

15.
3/2020
Arca Sedda, Manuel
Dissecting the properties of neutron star-black hole mergers originating in dense star clusters
CmPhy 3, 43(2020)

14.
3/2020
Sedda, Manuel Arca
Birth, Life, and Death of Black Hole Binaries around Supermassive Black Holes: Dynamical Evolution of Gravitational Wave Sources
ApJ 891, 47(2020)

13.
3/2020
Bonetti, Matteo; Rasskazov, Alexander et al. (inc. Arca Sedda, Manuel)
On the eccentricity evolution of massive black hole binaries in stellar backgrounds
MNRAS 493, L114(2020)

12.
7/2019
Barack, Leor; Cardoso, Vitor et al. (inc. Arca-Sedda, Manuel)
Black holes, gravitational waves and fundamental physics: a roadmap
CQGra 36, n3001(2019)

11.
4/2019
Panamarev, Taras; Just, Andreas et al. (inc. Arca Sedda, Manuel; Berczik, Peter; Spurzem, Rainer)
Direct N-body simulation of the Galactic centre
MNRAS 484, 3279(2019)

10.
3/2019
Arca Sedda, Manuel; Berczik, Peter et al. (inc. Spurzem, Rainer)
Supermassive black holes coalescence mediated by massive perturbers: implications for gravitational waves emission and nuclear cluster formation
MNRAS 484, 520(2019)

9.
2/2019
Rastello, S.; Amaro-Seoane, P. et al. (inc. Arca-Sedda, M.)
Stellar black hole binary mergers in open clusters
MNRAS 483, 1233(2019)

8.
2/2019
Arca-Sedda, M.; Capuzzo-Dolcetta, R.
The MEGaN project II. Gravitational waves from intermediate-mass and binary black holes around a supermassive black hole
MNRAS 483, 152(2019)

7.
1/2019
Arca Sedda, M.; Benacquista, M.
Using final black hole spins and masses to infer the formation history of the observed population of gravitational wave sources
MNRAS 482, 2991(2019)

6.
10/2018
Arca Sedda, Manuel; Askar, Abbas et al.
MOCCA-Survey Database - I. Unravelling black hole subsystems in globular clusters
MNRAS 479, 4652(2018)

5.
9/2018
Arca-Sedda, Manuel; Kocsis, Bence et al.
Gamma-ray and X-ray emission from the Galactic centre: hints on the nuclear star cluster formation history
MNRAS 479, 900(2018)

4.
8/2018
Askar, Abbas; Arca Sedda, Manuel et al.
MOCCA-SURVEY Database I: Galactic globular clusters harbouring a black hole subsystem
MNRAS 478, 1844(2018)

3.
7/2018
Belczynski, K.; Askar, A. et al. (inc. Arca-Sedda, M.)
The origin of the first neutron star - neutron star merger
A&A 615, A91(2018)

2.
7/2018
Arca-Sedda, Manuel; Gualandris, Alessia
Gravitational wave sources from inspiralling globular clusters in the Galactic Centre and similar environments
MNRAS 477, 4423(2018)

1.
10/2017
Arca-Sedda, M.; Capuzzo-Dolcetta, R.
The MEGaN project - I. Missing formation of massive nuclear clusters and tidal disruption events by star clusters-massive black hole interactions
MNRAS 471, 478(2017)

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