Yuhei Iwata scite author profile

It is widely accepted that black holes (BHs) with masses greater than a million solar masses (M ⊙ ) lurk at the centres of massive galaxies. The origins of such 'supermassive' black holes (SMBHs) remain unknown 1 , while those of stellar-mass BHs are well-understood. One possible scenario is that intermediate-mass black holes (IMBHs), which are formed by the runaway coalescence of stars in young compact star clusters 2 , merge at the centre of a galaxy to form an SMBH 3 . Although many candidates for IMBHs have been proposed to date, none of them are accepted as definitive. Recently we discovered a peculiar molecular cloud, CO-0.40-0.22, with an extremely broad velocity width near the centre of our Milky Way galaxy.Based on the careful analysis of gas kinematics, we concluded that a compact object with a mass of ∼ 10 5 M ⊙ is lurking in this cloud 4 . Here we report the detection of a point-like continuum source as well as a compact gas clump near the center of CO-0.40-0.22. This point-like continuum source (CO-0.40-0.22 * ) has a wide-band spectrum consistent with 1/500 of the Galactic SMBH (Sgr A * ) in luminosity. Numerical simulations around a point-like massive object reproduce the kinematics of dense molecular gas well, which suggests that CO-0.40-0.22 * is the most promising candidate for an intermediate-mass black hole.CO-0.40-0.22 is a compact cloud (∼ 5 pc) with an extremely broad velocity width (∼ 100 km s −1 ) and very high CO J=3-2/J=1-0 intensity ratio (≥ 1.5) detected at a projected distance of ∼ 60 pc away from the galactic nucleus 5 . It belongs to a peculiar category of molecular clouds called high-velocity compact clouds (HVCCs) that were originally identified in the CO J=1-0 survey data 6-8 . CO-0.40-0.22 is only a dense cloud with a negative velocity detected in HCN J=4-3 line within the 0.3 • ×0.3 • area including it 4 . It has a continuous and roughly straight entity in the position-velocity maps, seeming not to be an aggregate of unrelated clouds with less broad velocity widths. The kinematical structure of CO-0.40-0.22 can be explained as being due to a gravitational kick experienced by the molecular cloud caused by an invisible compact object with a mass of ∼ 10 5 M ⊙ . The compactness and absence of a counterpart at other wavelengths suggest that this massive object is an inactive IMBH, which is not currently accreting matter. This is the second-largest black hole candidate in the Milky Way galaxy affter Sgr A * , as well as the second IMBH candidate in the Galaxy after that in the nuclear subcluster IRS13E (M BH ≃ 1300 M ⊙ ) 9,10 .ALMA band 6 observations towards CO-0.40-0.22 have provided high-resolution HCN J=3-2 (265.9 GHz) and CO J=2-1 (230.5 GHz) images. Dense molecular gas traced by HCN J=3-2 emission seems to concentrate near the centre of CO-0.40-0.22 as previously determined by the coarse-resolution ASTE HCN J=4-3 map (Fig. 1a). The displacement of 0.2 pc from the centre is within the ASTE beamwidth (22 ′′ = 0.9 pc). This dense gas clump is very compact (∼ 0.3

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Small-vessel radiography in situ with monochromatic synchrotron radiation.

Mori¹,

Hyodo²,

Tanaka³

et al. 1996

Radiology

133

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Indication of Another Intermediate-mass Black Hole in the Galactic Center

Takekawa

Oka

Iwata

et al. 2019

ApJL

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We report the discovery of molecular gas streams orbiting around an invisible massive object in the central region of our Galaxy, based on the high-resolution molecular line observations with the Atacama Large Millimeter/submillimeter Array (ALMA). The morphology and kinematics of these streams can be reproduced well through two Keplerian orbits around a single point mass of (3.2±0.6)×10 4 M . We also found ionized gas toward the inner part of the orbiting gas, indicating dissociative shock and/or photoionization. Our results provide new circumstantial evidences for a wandering intermediate-mass black hole in the Galactic center, suggesting also that high-velocity compact clouds can be probes of quiescent black holes abound in our Galaxy.

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Synthetic Studies on Lactonamycins: Synthesis of the Model BCDEF Aglycon

et al. 2010

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The lactonamycin model aglycon 4 was synthesized from the trihalogenated benzene derivative 10. Ethynyltetraol 6 was prepared from 10 via carbon elongations, oxidative demethylation, a cycloaddition reaction with the diene derived from homophthalic anhydride, and dihydroxylation. Final E- and F-ring constructions from 6 were realized via a palladium-catalyzed cyclization-methoxycarbonylation, a stereoselective methanol addition, and lactonization, leading to the production of 4.

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Total Syntheses of Lactonamycin and Lactonamycin Z with Late‐Stage A‐Ring Formation and Glycosylation

et al. 2013

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Scheme 1. Lactonamycin (1), lactonamycin Z (2), lactonamycinone (3), and model BCDEF aglycon (AE)-4. Scheme 2. Intermediates 5 and 6 synthesized by other research groups.Scheme 6. Synthesis of (AE)-lactonamycinone ((AE)-3) through a Bischler-Napieralski-type cyclization. a) PdCl 2 , 1,4-benzoquinone, CO, MeOH, RT, 69 %; b) CSA, MeOH, 80 8C, then evaporation, benzene, 80 8C, 100 %; c) AcCl, pyridine, CH 2 Cl 2 , RT, 95 %; d) P 2 O 5 , CH 2 Cl 2 , RT, 71 %; e) ClCH 2 COCl, pyridine, CH 2 Cl 2 , RT, 99 %; f) P 2 O 5 , CH 2 Cl 2 , RT, 75 %; g) Et 3 N, MeOH/CH 2 Cl 2 (1:3 v/v), 40 8C; h) MgI 2 ·OEt 2 , benzene, 80 8C, 2 steps 56 %. CSA = camphorsulfonic acid, CA = chloroacetyl. Angewandte Chemie 2089

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Yuhei Iwata

Millimetre-wave emission from an intermediate-mass black hole candidate in the Milky Way

Small-vessel radiography in situ with monochromatic synchrotron radiation.

Indication of Another Intermediate-mass Black Hole in the Galactic Center

Synthetic Studies on Lactonamycins: Synthesis of the Model BCDEF Aglycon

Total Syntheses of Lactonamycin and Lactonamycin Z with Late‐Stage A‐Ring Formation and Glycosylation

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