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437 results on '"Li, G. X."'

1. Emergence of high-mass stars in complex fiber networks (EMERGE). I. Early ALMA Survey: observations and massive data reduction

Author

Hacar, A., Socci, A., Bonanomi, F., Petry, D., Tafalla, M., Harsono, D., Forbrich, J., Alves, J., Grossschedl, J., Goicoechea, J. R., Pety, J., Burkert, A., and Li, G. X.

Subjects
Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics
Abstract

(Abridged) Recent molecular surveys have revealed a rich gas organization of sonic-like fibers in all kind of environments prior to the formation of low- and high-mass stars. This paper introduces the EMERGE project aiming to investigate whether complex fiber arrangements could explain the origin of high-mass stars and clusters. We analyzed the EMERGE Early ALMA Survey including 7 star-forming regions in Orion (OMC-1/2/3/4 South, L1641N, NGC2023, and Flame Nebula) homogeneously surveyed in both molecular lines (N$_2$H$^+$ J=1-0, HNC J=1-0, plus HC3N J=10-9) and 3mm-continuum using a combination of interferometric ALMA mosaics and IRAM-30m single-dish (SD) maps. Based on our low-resolution (SD) observations, we describe the global properties of our sample covering a wide range of physical conditions including low-, intermediate, and high-mass star-forming regions in different evolutionary stages. Their comparison with ancillary YSO catalogs denotes N$_2$H$^+$ as the best proxy for the dense, star-forming gas in our targets showing a constant star formation efficiency and a fast time evolution of <1 Myr. While apparently clumpy and filamentary in our SD data, all targets show a much more complex fibrous substructure at the enhanced resolution of our ALMA+IRAM-30m maps. A large number of filamentary features at sub-parsec scales are clearly recognized in the high-density gas traced by N$_2$H$^+$ directly connected to the formation of individual protostars. This complex gas organization appears to extend further into the more diffuse gas traced by HNC. This paper presents the EMERGE Early ALMA survey including a first data release of continuum maps and spectral products for this project to be analysed in future papers of this series. A first look at these results illustrates the need of advanced data combination techniques to investigate the intrinsic multi-scale, gas structure of the ISM., Comment: 37 pages, 28 fgures, Accepted by A&A

Published
2024
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3. Deep underground laboratory measurement of $^{13}$C($\alpha$,$n$)$^{16}$O in the Gamow windows of the $s$- and $i$-processes

Author

Gao, B., Jiao, T. Y., Li, Y. T., Chen, H., Lin, W. P., An, Z., Ru, L. H., Zhang, Z. C., Tang, X. D., Wang, X. Y., Zhang, N. T., Fang, X., Xie, D. H., Fan, Y. H., Ma, L., Zhang, X., Bai, F., Wang, P., Fan, Y. X., Liu, G., Huang, H. X., Wu, Q., Zhu, Y. B., Chai, J. L., Li, J. Q., Sun, L. T., Wang, S., Cai, J. W., Li, Y. Z., Su, J., Zhang, H., Li, Z. H., Li, Y. J., Li, E. T., Chen, C., Shen, Y. P., Lian, G., Guo, B., Li, X. Y., Zhang, L. Y., He, J. J., Sheng, Y. D., Chen, Y. J., Wang, L. H., Zhang, L., Cao, F. Q., Nan, W., Nan, W. K., Li, G. X., Song, N., Cui, B. Q., Chen, L. H., Ma, R. G., Yan, S. Q., Liao, J. H., Wang, Y. B., Zeng, S., Nan, D., Fan, Q. W., Qi, N. C., Sun, W. L., Guo, X. Y., Zhang, P., Chen, Y. H., Zhou, Y., Zhou, J. F., He, J. R., Shang, C. S., Li, M. C., Kubono, S., Liu, W. P., deBoer, R. J., Wiescher, M., and Pignatari, M.

Subjects
Nuclear Experiment
Abstract

The $^{13}$C($\alpha$,$n$)$^{16}$O reaction is the main neutron source for the slow-neutron-capture (s-) process in Asymptotic Giant Branch stars and for the intermediate (i-) process. Direct measurements at astrophysical energies in above-ground laboratories are hindered by the extremely small cross sections and vast cosmic-ray induced background. We performed the first consistent direct measurement in the range of $E_{\rm c.m.}=$0.24 MeV to 1.9 MeV using the accelerators at the China Jinping Underground Laboratory (CJPL) and Sichuan University. Our measurement covers almost the entire i-process Gamow window in which the large uncertainty of the previous experiments has been reduced from 60\% down to 15\%, eliminates the large systematic uncertainty in the extrapolation arising from the inconsistency of existing data sets, and provides a more reliable reaction rate for the studies of the s- and i-processes along with the first direct determination of the alpha strength for the near-threshold state.

Published
2022
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5. Physical and chemical structure of the Serpens filament -- fast formation and gravity-driven accretion

Author

Gong, Y., Belloche, A., Du, F. J., Menten, K. M., Henkel, C., Li, G. X., Wyrowski, F., and Mao, R. Q.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

The Serpens filament, a prominent elongated structure in a relatively nearby molecular cloud, is believed to be at an early evolutionary stage, so studying its physical and chemical properties can shed light on filament formation and early evolution. The main goal is to address the physical and chemical properties as well as the dynamical state of the Serpens filament at a spatial resolution of $\sim$0.07 pc and a spectral resolution of $\lesssim$0.1~km~s$^{-1}$. We performed $^{13}$CO (1--0), C$^{18}$O (1--0), C$^{17}$O (1--0), $^{13}$CO (2--1), C$^{18}$O (2--1), and C$^{17}$O (2--1) imaging observations toward the Serpens filament with the Institut de Radioastronomie Millim{\'e}trique 30-m (IRAM-30 m) and Atacama Pathfinder EXperiment (APEX) telescopes. Widespread narrow $^{13}$CO (2--1) self-absorption is observed in this filament, causing the $^{13}$CO morphology to be different from the filamentary structure traced by C$^{18}$O and C$^{17}$O. Our excitation analysis suggests that the opacities of C$^{18}$O transitions become higher than unity in most regions, and this analysis confirms the presence of widespread CO depletion. Further we show that the local velocity gradients have a tendency to be perpendicular to the filament's long axis in the outskirts and parallel to the large-scale magnetic field direction. The magnitudes of the local velocity gradients decrease toward the filament's crest. The observed velocity structure can be a result of gravity-driven accretion flows. The isochronic evolutionary track of the C$^{18}$O freeze-out process indicates the filament is young with an age of $\lesssim$2 Myr. We propose that the Serpens filament is a newly-formed slightly-supercritical structure which appears to be actively accreting material from its ambient gas., Comment: 26 pages, 24 figures, 2 tables, accepted for publication in A&A; A 3D view of the C18O(2-1) cube can be found in https://gongyan2444.github.io/gallery.html

Published
2020
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6. The distances of 61 PGCCs in the Second Galactic Quadrant

Author

Guo, H. -L., Chen, B. -Q., Li, G. -X., Huang, Y., Yang, Y., Li, X. -Y., Sun, W. -X., and Liu, X. -W.

Subjects
Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics
Abstract

Determining the distances to the Planck Galactic cold clumps (PGCCs) is crucial for the measurement of their physical parameters and the study of their Galactic distribution. Based on two large catalogues of stars with robust distances and reddening estimates from the literature, we have estimated accurate distances to 61 PGCCs in the second Galactic quadrant. For this purpose, we have selected stars along the sightlines overlapping with the cores of the sample clumps and fitted the reddening profiles with a simple reddening model. The typical uncertainties of the resultant distances of these PGCCs are less than 8 per cent. The new estimates differ significantly from the kinematic values, well known to suffer from large errors. With the new distances, we have updated the physical properties including the radii, masses and virial parameters of the cores of the PGCCs., Comment: 9 pages, 5 figures, accepted for publication in MNRAS

Published
2020
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7. A large catalogue of molecular clouds with accurate distances within 4 kpc of the Galactic disk

Author

Chen, B. -Q., Li, G. -X., Yuan, H. -B., Huang, Y., Tian, Z. -J., Wang, H. -F., Zhang, H. -W., Wang, C., and Liu, X. -W.

Subjects
Astrophysics - Astrophysics of Galaxies, Astrophysics - Solar and Stellar Astrophysics
Abstract

We present a large, homogeneous catalogue of molecular clouds within 4 kpc from the Sun at low Galactic latitudes ($|b|$ $<$ 10\degr) with unprecedented accurate distance determinations. Based on the three-dimensional dust reddening map and estimates of colour excesses and distances of over 32 million stars presented in Chen et al, we have identified 567 dust/molecular clouds with a hierarchical structure identification method and obtained their distance estimates by a dust model fitting algorithm. The typical distance uncertainty is less than 5 per cent. As far as we know, this is the first large catalogue of molecular clouds in the Galactic plane with distances derived in a direct manner. The clouds are seen to lie along the Sagittarius, Local and Perseus Arms. In addition to the known structures, we propose the existence of a possible {\it spur}, with a pitch angle of about 34\degr, connecting the Local and the Sagittarius Arms in the fourth quadrant. We have also derived the physical properties of those molecular clouds. The distribution of cloud properties in different parameter spaces agrees grossly with the previous results. Our cloud sample is an ideal starting point to study the concentration of dust and gas in the solar vicinity and their star formation activities., Comment: 11 pages, 7 figures, 2 tables, MNRAS in press

Published
2020
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8. The Serpens filament: at the onset of slightly supercritical collapse

Author

Gong, Y., Li, G. ~X., Mao, R. ~Q., Henkel, C., Menten, K. M., Fang, M., Wang, M., and Sun, J. ~X.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

The Serpens filament, as one of the nearest infrared dark clouds, is regarded as a pristine filament at a very early evolutionary stage of star formation. In order to study its molecular content and dynamical state, we mapped this filament in seven species. Among them, HCO$^{+}$, HNC, HCN, and CS show self-absorption, while C$^{18}$O is most sensitive to the filamentary structure. A kinematic analysis demonstrates that this filament forms a velocity-coherent (trans-)sonic structure, a large part of which is one of the most quiescent regions in the Serpens cloud. Widespread C$^{18}$O depletion is found throughout the Serpens filament. Based on the Herschel dust-derived H$_{2}$ column density map, the line mass of the filament is 36--41~M$_{\odot}$~pc$^{-1}$, and its full width at half maximum is 0.17$\pm$0.01~pc, while its length is ~1.6~pc. The inner radial column density profile of this filament can be well fitted with a Plummer profile with an exponent of 2.2$\pm$0.1, a scale radius of $0.018\pm 0.003$ pc, and a central density of $(4.0\pm 0.8)\times 10^{4}$~cm$^{-3}$. The Serpens filament appears to be slightly supercritical. The widespread blue-skewed HNC and CS line profiles and HCN hyperfine line anomalies across this filament indicate radial infall in parts of the Serpens filament. C$^{18}$O velocity gradients also indicate accretion flows along the filament. The velocity and density structures suggest that such accretion flows are likely due to a longitudinal collapse parallel to the filament's long axis. Both the radial infall rate and the longitudinal accretion rate along the Serpens filament are lower than all previously reported values in other filaments. This indicates that the Serpens filament lies at an early evolutionary stage when collapse has just begun, or that thermal and non-thermal support are effective in providing support against gravity., Comment: 22 pages, 14 figures, 4 tables, accepted for publication in A&A; for the draft showing figures with full resolution, see http://gongyan2444.github.io/pdf/absfil.pdf

Published
2018
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9. Temperature and composition dependence of thermophysical properties within a wide temperature range for ternary Si–Ge–Ag alloys.

Author

Chen, H. M., Li, G. X., Zhao, J. F., and Wang, H. P.

Subjects
*TERNARY alloys, *THERMOPHYSICAL properties, *THERMAL conductivity, *LOW temperatures, *THERMAL expansion, *SPECIFIC heat
Abstract

The thermophysical properties of Si–Ge–Ag alloys in a broad temperature range are essential for the design of electronic devices. In this work, relationships between specific heat, thermal expansion, thermal conductivity and temperature, as well as chemical composition of Si–Ge–Ag alloys were clarified. Moreover, various thermophysical properties' prediction strategies of multicomponent alloys from pure elements were evaluated. The specific heat of Ag–Si, Ag–Ge, Si–Ge, and Si–Ge–Ag alloys was determined by the differential scanning method. The results showed a significant increase with rising temperature at low temperatures followed by a gradual rise at high temperatures. The specific heat reached the maximum value when a small amount of Si/Ge was introduced to Ag. The coefficient of thermal expansion was obtained by a dilatometric method and increased slightly with the increasing temperature, while decreased linearly with the increase in the Si/Ge content. Furthermore, the thermal conductivity was investigated via a laser flash apparatus. It decreased with rising temperature when the Ag content is smaller than 50%, whereas it increased with rising temperature when the Ag content exceeds 50%. The thermal conductivity of Si–Ge alloys decreased with rising temperature and reached the local minimum for Si–Ge alloys with an equiatomic ratio of Si and Ge. More importantly, the experimental results reveal that the thermal expansion that is related to volume can be estimated approximately by pure metals in Si–Ge–Ag alloys. However, this rule cannot be applied to specific heat and thermal conductivity, which is due to the influence of lattice vibration, electronic scattering, and microstructure. [ABSTRACT FROM AUTHOR]

Published
2023
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10. SDC13 infrared dark clouds: Longitudinally collapsing filaments?

Author

Peretto, N., Fuller, G. A., André, Ph., Arzoumanian, D., Rivilla, V. M., Bardeau, S., Puertas, S. Duarte, Fernandez, J. P. Guzman, Lenfestey, C., Li, G. -X., Olguin, F. A., Röck, B. R., de Villiers, H., and Williams, J.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

Formation of stars is now believed to be tightly linked to the dynamical evolution of interstellar filaments in which they form. In this paper we analyze the density structure and kinematics of a small network of infrared dark filaments, SDC13, observed in both dust continuum and molecular line emission with the IRAM 30m telescope. These observations reveal the presence of 18 compact sources amongst which the two most massive, MM1 and MM2, are located at the intersection point of the parsec-long filaments. The dense gas velocity and velocity dispersion observed along these filaments show smooth, strongly correlated, gradients. We discuss the origin of the SDC13 velocity field in the context of filament longitudinal collapse. We show that the collapse timescale of the SDC13 filaments (from 1 Myr to 4 Myr depending on the model parameters) is consistent with the presence of Class I sources in them, and argue that, on top of bringing more material to the centre of the system, collapse could generate additional kinematic support against local fragmentation, helping the formation of starless super-Jeans cores., Comment: 10 pages, 10 figures. Accepted for publication in A&A

Published
2013
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11. Linear and Nonlinear Fano Resonance on two-dimensional Magnetic Metamaterials

Author

Liu, H., Li, G. X., Li, K. F., Chen, S. M., Zhu, S. N., Chan, C. T., and Cheah, K. W.

Subjects
Physics - Optics
Abstract

We demonstrate that both linear and nonlinear Fano resonances can be realized on two dimensional magnetic metamaterials. The Fano resonance comes from the interference between localized magnetic plasmon resonance and propagating surface plasmon polaritons. When studying the linear optical response of the metamaterial structure, this interference phenomenon was observed in the ellipsometric spectrum. By finely tailoring the geometrical parameters of the magnetic metamaterial device, the nonlinear Fano response was tuned to a near-infrared wavelength (1.61-1.8 {\mu}m) of femtosecond pump laser, and Fano-type modulation of the third harmonic generation was found and agrees well with our theoretical model., Comment: 22 pages, 8 figures, published at Physical Review B 84, 235437 (2011)

Published
2012

12. Spontaneous emission interference in negative-refractive-index waveguides

Author

Li, G. X., Evers, J., and Keitel, C. H.

Subjects
Quantum Physics, Condensed Matter - Other Condensed Matter, Physics - Optics
Abstract

The spontaneous decay of a V-type three-level atom placed in a negative-refractive-index waveguide is analyzed. We find that in thin waveguides, highly efficient surface guided modes are supported, which do not occur in positive index waveguides. In addition, at low absorption, the mode density and thus spontaneous emission into particular regular guided modes is enhanced by several orders of magnitude as compared to regular dielectric waveguides. The asymmetries between emission into the different modes and the enhancement of particular guided modes allow to induce strong spontaneous-emission interference between transitions with orthogonal transition dipole moments., Comment: 7 pages, 7 figures

Published
2009
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13. Massive clumps in W43-main: Structure formation in an extensively shocked molecular cloud.

Author

Lin, Y., Wyrowski, F., Liu, H. B., Gong, Y., Sipilä, O., Izquierdo, A., Csengeri, T., Ginsburg, A., Li, G. X., Spezzano, S., Pineda, J. E., Leurini, S., Caselli, P., and Menten, K. M.

Subjects
MOLECULAR clouds, SHOCK waves, KINEMATICS, LEGAL evidence, GAS dynamics
Abstract

Aims. W43-main is a massive molecular complex undergoing starburst activities, located at the interaction of the Scutum arm and the Galactic bar. We aim to investigate the gas dynamics, in particular, the prevailing shock signatures from cloud to clump scales. We also look to assess the impact of shocks on the formation of dense gas and early-stage cores in OB cluster formation processes. Methods. We carried out NOEMA and IRAM-30 m observations at 3 mm towards five molecular gas clumps in W43 main located within large-scale interacting gas components. We used CH3CCH and H2CS lines to trace the extended gas temperature and CH3OH lines to probe the volume density of the dense gas components (≳105 cm−3). We adopted multiple tracers that are sensitive to different gas density regimes to reflect the global gas motions. The density enhancements constrained by CH3OH and a population of NH2D cores are correlated (in the spatial and velocity domains) with SiO emission, which is a prominent indicator of shock processing in molecular clouds. Results. The emission of SiO (2–1) is extensive across the region (~4 pc) and it is contained within a low-velocity regime, hinting at a large-scale origin for the shocks. Position-velocity maps of multiple tracers show systematic spatio-kinematic offsets supporting the cloud-cloud collision-merging scenario. We identified an additional extended velocity component in the CCH emission, which coincides with one of the velocity components of the larger scale 13CO (2−1) emission, likely representing an outer, less-dense gas layer in the cloud merging process. We find that the 'V-shaped', asymmetric SiO wings are tightly correlated with localised gas density enhancements, which is direct evidence of dense gas formation and accumulation in shocks. The dense gas that is formed in this way may facilitate the accretion of the embedded, massive pre-stellar and protostellar cores. We resolved two categories of NH2D cores: those exhibiting only subsonic to transonic velocity dispersions and those with an additional supersonic velocity dispersion. The centroid velocities of the latter cores are correlated with the shock front seen via SiO. The kinematics of the ~0.1 pc NH2D cores are heavily imprinted by shock activities and may represent a population of early-stage cores forming around the shock interface. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Strong-field spatial interference in a tailored electromagnetic bath

Author

Macovei, M., Evers, J., Li, G. -x., and Keitel, C. H.

Subjects
Quantum Physics
Abstract

Light scattered by a regular structure of atoms can exhibit interference signatures, similar to the classical double-slit. These first-order interferences, however, vanish for strong light intensities, restricting potential applications. Here, we show how to overcome these limitations to quantum interference in strong fields. First, we recover the first-order interference in strong fields via a tailored electromagnetic bath with a suitable frequency dependence. At strong driving, the optical properties for different spectral bands are distinct, thus extending the set of observables. We further show that for a two-photon detector as, e.g., in lithography, increasing the field intensity leads to twice the spatial resolution of the second-order interference pattern compared to the weak-field case., Comment: final version

Published
2006
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16. Updated reaction rate of Mg25(p,γ)Al26 and its astrophysical implication

Author

Zhang, H., primary, Su, J., additional, Li, Z. H., additional, Li, Y. J., additional, Li, E. T., additional, Chen, C., additional, He, J. J., additional, Shen, Y. P., additional, Lian, G., additional, Guo, B., additional, Li, X. Y., additional, Zhang, L. Y., additional, Sheng, Y. D., additional, Chen, Y. J., additional, Wang, L. H., additional, Zhang, L., additional, Cao, F. Q., additional, Nan, W., additional, Nan, W. K., additional, Li, G. X., additional, Song, N., additional, Cui, B. Q., additional, Chen, L. H., additional, Ma, R. G., additional, Zhang, Z. C., additional, Jiao, T. Y., additional, Gao, B. S., additional, Tang, X. D., additional, Wu, Q., additional, Li, J. Q., additional, Sun, L. T., additional, Wang, S., additional, Yan, S. Q., additional, Liao, J. H., additional, Wang, Y. B., additional, Zeng, S., additional, Nan, D., additional, Fan, Q. W., additional, and Liu, W. P., additional

Published
2023
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19. CRDI Engine Emission Prediction Models with Injection Parameters Based on ANN and SVM to Improve the SOOT-NOx Trade-Off.

Author

Liao, W. R., Shi, J. H., and Li, G. X.

Subjects
DIESEL motors, PREDICTION models, DIESEL fuels, SUPPORT vector machines, GREENHOUSE gas mitigation, NONLINEAR equations
Abstract

Artificial Neural Network (ANN) and Support Vector Machine (SVM) have been widely used to solve non-linear problems. In the current study, based on 112 groups of experimental data, ANN and SVM models were established and compared to improve the trade-off relationship between SOOT and NOx emissions of a Common Rail Diesel Injection (CRDI) engine fueled with Fischer-Tropsch (F-T) diesel under different operating conditions and injection parameters. The model parameters for the different predictive targets were selected by evaluating the mean square error (MSE) and determination coefficient. Compared to the number of network iterations, the number of implied nodes had a greater effect on the MSE of the ANN model. Compared to the penalty parameter, the width coefficient had a weaker impact on the SVM performance. A comparative analysis showed that the SVM had better predictive accuracy and generalization ability than the ANN, with a maximum error not exceeding five percent and a determination coefficient of over 0.9. Subsequently, the optimal SVM model was combined with the NSGA-II algorithm to determine the optimal injection parameters for the CRDI engine, resulting in solutions to simultaneously decrease the SOOT and NOx emissions. The optimized injection parameters resulted in a 3.7-7.1% reduction in SOOT emission and a 1.2-2.6% reduction in NOx emissions compared to the original engine operating conditions. Based on limited experimental samples, SVM is inferred to be a useful tool for predicting the exhaust emissions of engines fueled with F-T diesel and can provide support for optimizing injection parameters. [ABSTRACT FROM AUTHOR]

Published
2023
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21. WISDOM Project - XIII. Different molecular structure populations and collision-driven turbulence in the dwarf lenticular galaxy NGC404

Author

Liu, L, Bureau, M, Li, G-X, Davis, GA, Nguyen, DD, Liang, F, Choi, W, Smith, M, and Iguchi, S

Abstract

We present a study of molecular structures (clumps and clouds) in the dwarf galaxy NGC 404 using high-resolution (≈ 0.86 × 0.51 pc2 ) Atacama Large Millimeter/sub-millimeter Array 12CO(2-1) observations. We find two distinct regions in NGC 404: a gravitationally-stable central region (Toomre parameter 𝑄 = 3 − 30) and a gravitationally-unstable molecular ring (𝑄 ≲ 1). The molecular structures in the central region have a steeper size – linewidth relation and larger virial parameters than those in the molecular ring, suggesting gas is more turbulent in the former. In the molecular ring, clumps exhibit a shallower mass – size relation and larger virial parameters than clouds, implying density structures and dynamics are regulated by different physical mechanisms at different spatial scales. We construct an analytical model of clump-clump collisions to explain the results in the molecular ring. We propose that clumpclump collisions are driven by gravitational instabilities coupled with galactic shear, that lead to a population of clumps whose accumulation lengths (i.e. average separations) are approximately equal to their tidal radii. Our model-predicted clump masses and sizes (and mass – size relation) and turbulence energy injection rates (and size – linewidth relation) match the observations in the molecular ring very well, suggesting clump-clump collisions is the main mechanism regulating clump properties and gas turbulence in that region. As expected, our collision model does not apply to the central region, where turbulence is likely driven by clump migration.

Published
2022

26. A thermodynamic chemical reaction network drove autocatalytic prebiotic peptides formation

Author

Bao, P, He, Y-Q, Li, G-X, Zhang, H-E, and Xiao, K-Q

Abstract

The chemical reaction networks (CRNs), which led to the transition on early Earth from geochemistry to biochemistry remain unknown. We show that the simplest substances—bicarbonate, sulfite/sulfate, and ammonium—were converted to peptides in one geological setting from Sammox (sulfite/sulfate reduction coupled to anaerobic ammonium oxidation)-driven CRNs under mild hydrothermal conditions. Peptides comprise 15 proteinogenic amino acids, endowed Sammox-driven CRNs with autocatalysis. The peptides exhibit both forward and reverse catalysis, with the opposite catalytic impact in sulfite- and sulfate-fueled Sammox-driven CRNs, respectively, at both a variable temperature range and a fixed temperature, resulting in seesaw-like catalytic properties. The variation of substrates concentration and temperature, can influence the redox property of the system, may disrupt the redox homeostasis of Sammox-driven CRNs, therefore, the catalytic orientation of peptides changed due to the stimulation, to maintain system redox homeostasis. The seesaw-like catalytic characteristics of peptides is critical to achieving the sustainability and evolution of Sammox-driven CRNs by preferentially destroy non-functional peptides and preserve peptides with high substrate specificities and/or novel functions. Moreover, the peptides generated from sulfite-fueled Sammox-driven CRNs could catalyze both sulfite-fueled Sammox, and Anammox (nitrite reduction coupling with anaerobic ammonium oxidation) reactions. We propose that Sammox-driven CRNs were critical in the creation of life and that Sammox and Anammox are primordial energy conservation traits.

Published
2022

47. Epidemiologic and clinical characteristics of 91 hospitalized patients with COVID-19 in Zhejiang, China: a retrospective, multi-centre case series

Author

Qian, G -Q, primary, Yang, N -B, primary, Ding, F, primary, Ma, A H Y, primary, Wang, Z -Y, primary, Shen, Y -F, primary, Shi, C -W, primary, Lian, X, primary, Chu, J -G, primary, Chen, L, primary, Ren, D -W, primary, Li, G -X, primary, Chen, X -Q, primary, Shen, H -J, primary, and Chen, X -M, primary

Published
2020
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