Prof. Niranjan Thatte

The Supermassive Black Hole in the Nearby Spiral Galaxy M81: A Robust Mass from JWST/NIRSpec Stellar Dynamics

(2026)

Authors:

Dieu D Nguyen, Tuan N Le, Michele Cappellari, Hai N Ngo, Tinh QT Le, Tien HT Ho, Long QT Nguyen, Elena Gallo, Fan Zou, Michele Perna, Niranjan Thatte, Miguel Pereira-Santaella

The PAH 3.4 micron feature as a tracer of shielding in the Orion Bar and NGC 6240

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) (2025) staf2047

Authors:

N Thatte, D Rigopoulou, Fr Donnan, I Garcia-Bernete, M Pereira-Santaella, B Draine, O Veenema, B Kerkeni, A Alonso-Herrero, L Hermosa Muñoz, G Speranza

Abstract:

<jats:title>Abstract</jats:title> <jats:p>We have carried out a detailed analysis of the 3.4 μm spectral feature arising from Polycyclic Aromatic Hydrocarbons (PAH), using JWST archival data. For the first time in an external galaxy (NGC 6240), we have identified two distinct spectral components of the PAH 3.4 μm feature: a shorter wavelength component at 3.395 μm, which we attribute to short aliphatic chains tightly attached to the aromatic rings of the PAH molecules; and a longer wavelength feature at 3.405 μm that arises from longer, more fragile, aliphatic chains that are weakly attached to the parent PAH molecule. These longer chains are more easily destroyed by far-ultraviolet photons (&amp;gt;5eV) and PAH thermal emission only occurs where PAH molecules are shielded from more energetic photons by dense molecular gas. We see a very strong correlation in the morphology of the PAH 3.395 μm feature with the PAH 3.3 μm emission, the latter arising from robust aromatic PAH molecules. We also see an equally strong correlation between the PAH 3.405 μm morphology and the warm molecular gas, as traced by H2 vibrational lines. We show that the flux ratio PAH 3.395/PAH 3.405 &amp;lt; 0.3 corresponds strongly to regions where the PAH molecules are shielded by dense molecular gas, so that only modestly energetic UV photons penetrate to excite the PAHs. Our work shows that PAH 3.405 μm and PAH 3.395 μm emission features can provide robust diagnostics of the physical conditions of the interstellar medium in external galaxies, and can be used to quantify the energies of the photon field penetrating molecular clouds.</jats:p>

The PAH 3.4 micron feature as a tracer of shielding in the Orion Bar and NGC 6240

(2025)

Authors:

N Thatte, D Rigopoulou, FR Donnan, I Garcia-Bernete, M Pereira-Santaella, B Draine, O Veenema, B Kerkeni, A Alonso-Herrero, L Hermosa Muñoz, G Speranza

Extending the Frontier of Spatially-Resolved Supermassive Black Hole Mass Measurements to at $1\lesssim z\lesssim2$: Simulations with ELT/MICADO High-Resolution Mass Models and HARMONI Integral-Field Stellar Kinematics

(2025)

Authors:

Dieu D Nguyen, Michele Cappellari, Tinh QT Le, Hai N Ngo, Elena Gallo, Niranjan Thatte, Fan Zou, Tien HT Ho, Tuan N Le, Huy G Tong, Miguel Pereira-Santaella

Shock-driven heating in the circumnuclear star-forming regions of NGC 7582: insights from JWST NIRSpec and MIRI/MRS spectroscopy

Monthly Notices of the Royal Astronomical Society Oxford University Press 544:4 (2025) 3361-3378

Authors:

Oscar Veenema, Niranjan Thatte, Dimitra Rigopoulou, Ismael García-Bernete, Almudena Alonso-Herrero, Anelise Audibert, Enrica Bellocchi, Andrew J Bunker, Steph Campbell, Francoise Combes, Ric I Davies, Daniel Delaney, Fergus Donnan, Federico Esposito, Santiago García-Burillo, Omaira Gonzalez Martin, Laura Hermosa Muñoz, Erin KS Hicks, Sebastian F Hoenig, Nancy A Levenson, Chris Packham, Miguel Pereira-Santaella, Cristina Ramos Almeida, Claudio Ricci

Abstract:

We present combined James Webb Space Telescope (JWST) NIRSpec and MIRI/MRS integral field spectroscopy data of the nuclear and circumnuclear regions of the highly dust obscured Seyfert 2 galaxy NGC 7582, which is part of the sample of active galactic nucleaus (AGN) in the Galaxy Activity, Torus and Outflow Survey (GATOS). Spatially resolved analysis of the pure rotational H lines (S(1)–S(7)) reveals a characteristic power-law temperature distribution in different apertures, with the two prominent southern star-forming regions exhibiting unexpectedly high molecular gas temperatures, comparable to those in the AGN powered nuclear region. We investigate potential heating mechanisms including direct AGN photoionization, UV fluorescent excitation from young star clusters, and shock excitation. We find that shock heating gives the most plausible explanation, consistent with multiple near- and mid-IR tracers and diagnostics. Using photoionization models from the PhotoDissociation Region Toolbox, we quantify the ISM conditions in the different regions, determining that the southern star-forming regions have a high density ( cm) and are irradiated by a moderate UV radiation field ( Habing). Fitting a suite of Paris-Durham shock models to the rotational H lines, as well as rovibrational 1-0 S(1), 1-0 S(2), and 2-1 S(1) H emission lines, we find that a slow ( km s−1) C-type shock is likely responsible for the elevated temperatures. Our analysis loosely favours local starburst activity as the driver of the shocks and circumnuclear gas dynamics in NGC 7582, though the possibility of an AGN jet contribution cannot be excluded.