Valency-based molecular descriptors of Bakelite network BNmn$B\text N_{m}^{n}$

Ahmad, Maqsood; Javaid, Muhammad; Saeed, Muhammad; Jung, Chahn Yong

doi:10.1515/chem-2019-0081

Cited by 6 publications

(7 citation statements)

References 29 publications

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“…Recent works carried out by Cowperthwaite & Reynolds (2014), Hogg & Reynolds (2016) and Ahmad et al (2018) have shown that for standard optically thick and geometrically thin disks the propagation time-scales are frequency dependent and are different from the viscous ones. Maqbool et al (2019) quantified this behavior for hot, optically thin, geometrically thick flows considering the propagation time from the transition region onwards.…”

Section: Stochastic Propagation Modelmentioning

confidence: 99%

Unveiling the Temporal Properties of MAXI J1820+070 through AstroSat Observations

Mudambi

Maqbool

Misra

et al. 2020

ApJL

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We present here the results of the first broadband simultaneous spectral and temporal studies of the newly detected black hole binary MAXI J1820+070 as seen by SXT and LAXPC on-board AstroSat. The observed combined spectra in the energy range 0.7−80 keV were well modeled using disk blackbody emission, thermal Comptonization and a reflection component. The spectral analysis revealed that the source was in its hard spectral state (Γ = 1.61) with a cool disk (kT in = 0.22 keV). We report the energy dependent time-lag and root mean squared (rms) variability at different frequencies in the energy range 3−80 keV using LAXPC data. We also modeled the flux variability using a single zone stochastic propagation model to quantify the observed energy dependence of time-lag and fractional rms variability and then compared the results with that of Cygnus X-1. Additionally, we confirm the detection of a quasi-periodic oscillation with the centroid frequency at 47.7 mHz.

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Section: Stochastic Propagation Modelmentioning

confidence: 99%

Unveiling the Temporal Properties of MAXI J1820+070 through AstroSat Observations

Mudambi

Maqbool

Misra

et al. 2020

ApJL

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“…According to Cowperthwaite & Reynolds (2014), the time-lag expected in stochastic propagation is frequency dependent. Ahmad et al (2018) have shown that for standard stable gas pressure dominated disk the propagation timescale is frequency dependent for frequencies higher than the local viscous time-scale. While these results are indicative, one should bear in mind that they are for standard optically thick disks, and it is not certain how quantitatively different would the results be for a hot optically thin, geometrically thick flow and when the propagation time being considered is from the transition region on wards.…”

Section: Comparison With Other Propagation Modelsmentioning

confidence: 99%

“…However, one interesting feature of these simulations is that the propagation time-scales can be frequency dependent and are not necessarily the same as the viscous ones. Using simple time dependent standard disk equations, Ahmad et al (2018) also showed that this is the case and quantify the frequency dependent behaviours. However, these results are for standard outer disks extending to the last stable orbit and it is not clear how the results would change if the standard outer disk is truncated at some distance from the black hole and has a hot inner flow (Yuan & Narayan 2014).…”

Section: Introductionmentioning

confidence: 97%

A stochastic propagation model to the energy dependent rapid temporal behaviour of Cygnus X-1 as observed by AstroSat in the hard state

Maqbool

Mudambi

Misra

et al. 2019

Monthly Notices of the Royal Astronomical Society

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We report the results from analysis of six observations of Cygnus X-1 by Large Area X-ray Proportional Counters (LAXPC) and Soft X-ray Telescope (SXT) on-board AstroSat, when the source was in the hard spectral state as revealed by the broad band spectra. The spectra obtained from all the observations can be described by a single temperature Comptonizing region with disk and reflection components. The event mode data from LAXPC provides unprecedented energy dependent fractional root mean square (rms) and time-lag at different frequencies which we fit with empirical functions. We invoke a fluctuation propagation model for a simple geometry of a truncated disk with a hot inner region. Unlike other propagation models, the hard X-ray emission (> 4 keV) is assumed to be from the hot inner disk by a single temperature thermal Comptonization process. The fluctuations first cause a variation in the temperature of the truncated disk and then the temperature of the inner disk after a frequency dependent time delay. We find that the model can explain the energy dependent rms and time-lag at different frequencies.

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“…In an earlier paper [60], we discussed and computed several results regarding bakelite network, see figure (6), that are presented here to use them for comparative analysis.…”

Section: Bakelite Networkmentioning

confidence: 99%

Comparative Study of Certain Synthetic Polymers via Bond-Additive Invariants

2021

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Polymers, like vulcanized rubber, bakelite, and poly-methyl methacrylate (PMMA), are widely utilized as denture based materials, and their prominence has been nothing short of excellent. Recently, Ahmad et al. [Open Chemistry 17(2019): 663-670] computed bond-additive invariants (BAIs) for the molecular graph of bakelite. In the same paper, they proposed the comparative study of the aforementionedpolymers using BAIs. This paper develops molecular graphs of vulcanized rubber and PMMA to estimate M-Polynomial and the generalized Zagreb index. We derive numerous BAIs such as the first and the second Zagreb, Re-defined Zagreb, general Randić, first general Zagreb, and symmetric division degree invariants from the generalized Zagreb index. Moreover, we obtain the modified second Zagreb, inverse Randić, harmonic, inverse sum, and augmented Zagreb invariants from the M-Polynomials. Besides, we compute the atom bond connectivity, its fourth version ABC 4 , the geometric arithmetic, its fifth version GA 5 , and the Sanskruti indices. Finally, we provide insight into the numerical comparison among several BAIs to establish a relation for the underlying polymers' various physicochemical properties.

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Valency-based molecular descriptors of Bakelite network BNmn$B\text N_{m}^{n}$

Cited by 6 publications

References 29 publications

Unveiling the Temporal Properties of MAXI J1820+070 through AstroSat Observations

Unveiling the Temporal Properties of MAXI J1820+070 through AstroSat Observations

A stochastic propagation model to the energy dependent rapid temporal behaviour of Cygnus X-1 as observed by AstroSat in the hard state

Comparative Study of Certain Synthetic Polymers via Bond-Additive Invariants

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