Spatially-resolved evolutionary synthesis modelling of ARP 299: Preliminary results

We present spatially-resolved evolutionary synthesis modelling of the colliding galaxies NGC 3690 and IC 694, together known as Arp 299. This system is a possible merger and an excellent example of interaction-induced starbursts. Arp 299 is relatively nearby (V=3100 km s^–1), emits most of its energy in the far-IR, and shows signs extended, thermal radiation sources. As such, it presents a good candidate for understanding the relationships between the dynamics of interacting galaxies and the starburst process. We use previously published photometric and spectroscopic data from the ultraviolet, optical, near- and far-infrared, millimeter, and radio spectral regions to constrain synthesis modelling of 1–2 kpc diameter areas at the three canonical regions of interest. The near-IR broadband decomposition method of Joy and Harvey (1987; also Telescoet al., 1985) is used to obtain the extinction to each of the three areas, which allows us to determine the intrinsic stellar spectrum. The synthesis modelling then determines the initial mass function and the star formation rate history of the interaction-induced stellar populations.     

Dynamical State of Molecular Gas in the Galaxy

Observed correlations between linewidths and the characteristic size of the radiating region of molecular clouds, as well as the extremely weak dependence of their surface density on the cloud size, are usually interpreted as evidence that the molecular clouds in the galaxy are in a virial state. In this paper it is argued that no more than 30% of the molecular gas in the galaxy can be in a virial equilibrium. Possible alternative reasons for the observed correlations are discussed. It is argued that the mass of molecular gas which is not in virial equilibrium may be greatly underestimated because of its low surface density and a reduced concentration of CO molecules.     

A comment on the ARP QSO's

Statistical arguments for the reality of physical associations between a class of QSO's and certain peculiar galaxies are now sufficiently convincing to require an explanation for the nature of the associations. If the associations are indeed real, the objects were probably liberated by tidal encounters between galaxies, rather than by explosive ejection.     

Molecular Gas in the Abell 262 Cluster Galaxy Ugc 1347

We present the results of ¹²CO(1-0) and ¹²CO(2-1) observations on UGC 1347 obtained with BIMA and the IRAM 30 m telescope. UGC 1347 is a member of the Abell 262 cluster. In Abell 262, a nearby spiral rich cluster, the signs of galaxy interaction and therefore the mechanisms which play an important role in galaxy evolution within clusters can be studied with high spatial resolution. Aside from its bright central region, UGC 1347 features a second prominent source at the southern tip of the bar, which has been identified as region with recent enhanced star formation. The CO observations prove the existence of reservoirs of cold molecular gas at the positions of both bright regions.     

红外暗云中分子气体团块的性质研究

利用¹²CO(1-0)、¹³CO(1-0)与C¹⁸O(1-0)分子谱线成图观测数据,并结合ATLASGAL (The APEX(Atacama Pathfinder Experiment) Telescope Large Area Survey of the Galaxy)尘埃连续谱巡天观测结果详细地研究了9个红外暗云(Infrared Dark Clouds, IRDCs)中团块的物理性质与运动学特征.给出了红外暗云的速度区间,以及在红外暗云所对应的Spitzer (Spitzer Space Telescope) 8μm辐射背景上叠加了与红外暗云轮廓基本吻合的¹³CO和C¹⁸O积分强度分布图. 9个红外暗云中有8个呈纤维状结构.在这些红外暗云中共找出51个致密团块,质量偏大的团块大部分聚集在红外暗云的枢纽位置.质量统计直方图中表现出明显的双峰结构,进一步证实纤维状分子云物质输送的图景.¹²CO(1-0)计算所得的典型激发温度T_ex...     

Distribution of the Molecular Gas Around SN 1572

The early-stage structure and evolution of a supernova remnant (SNR) depends largely on its ambient interstellar medium, so the interstellar medium becomes the valid probe for investigating the evolution of SNRs. We have observed the ¹²CO (J = 1 − 0) line emission around the remnant of SN 1572 with the 13.7m millimeter-wave telescope at the Qinghai Station of PMO, in order to investigate the distribution of the CO molecular gas around SN 1572 and provide some observational basis for studying the relationship of SN 1572 with its ambient molecular gas and the evolution of this SNR. The observed result indicates that the molecular gas in the velocity range of V_LSR = −69∼ −58 km/s is associated with SN 1572, and this velocity component comes from a large-scale molecular cloud. The molecular gas is distributed along the periphery of the radio shell, continually but not uniformly, and forms a semi-closed molecular shell around the SNR. The enhanced emission exists in its whole eastern half, especially the CO emission is strongest on the northeastern edge. At the emission peak position, the spectral line exhibits a broadened velocity feature (>5 km/s). Combining with available observations in the optical, infrared, X-ray and other wavebands, it is demonstrated that the fast shock wave and ejecta are expanding into the molecular gas on the northeastern edge, and interacting with the dense gas. This interaction will have an important influence on the future evolution of SN 1572.     

亮红外星系NGC 1614中多谱线示踪的致密分子气体

利用高空间分辨率的¹²CO(1-0)、¹³CO(1-0)、¹²CO(3-2)、¹²CO(6-5)、HCN(3-2)、\lk HCN(4-3)、 HCO⁺(3-2)和HCO⁺(4-3)分子谱线的ALMA (Atacama Large Millimeter/ submillimeter Array)归档数据, 来研究近邻亮红外星系NGC 1614的分子气体性质, 尤其是致密分子气体的性质. 在高分辨率分子气体谱线的积分强度图中, 在星系中心区域($<$ 1kpc)可以看到环状结构, 分子气体主要分布于星系中心区域, 核区分子气体含量较少. ¹²CO(1-0)显示出向南部、 北部以及东南部的延展结构, 高阶的CO ($J \ge$ 3, J为转振能级量子数)分子谱线和致密分子HCN、HCO⁺谱线显示, 较致密的分子气体主要集中于星系中心区域. HCN(4-3)/¹²CO(1-0)和HCN⁺(4-3)/¹²CO(1-0)积分强度比值图显示, 致密分子气体主要集中于中心区域的环状结构上. HCN/HCO⁺强度比值的分布变化表明星暴环的不同区域可能具有不同的激发条件. HCN/HCO⁺(4-3)强度比值分布在环的东、西部(sim0.44 pm 0.04)高于环的南、北部(sim0.35 pm 0.03). HCN/HCO⁺(3-2)强度比值较高的区域(sim0.38 pm 0.04)分布在HCN(3-2)峰值位置, 而环的西北、东南部强度比值相对较低(sim0.3 pm 0.03). 对于中心不同区域 HCN/HCO⁺比值变化的原因进行了讨论.     

The Starburst Properties of the Interacting System Arp 299 (IC 694 + NGC 3690)

We present a detailed study of the starburst properties of the components of the interacting system Arp 299. The burst ages range from 1 to 8 million years, with effective SFR from 60 to 300 M_⊙ yr^-1. This revised version was published online in July 2006 with corrections to the Cover Date.     

星系中分子气体和原子气体的研究进展

星际介质中的分子气体(主要是分子氢H2)和原子气体(主要是中性氢HI)成分是星系中重子物质的重要组成部分,它们对于星系中的各种物理过程至关重要。近年来随着观测技术的提高,分子气体和原子气体的观测结果越来越多,其中中性氢主要依靠21 cn氢原子射电辐射和DLA吸收体来观测,分子氢则通过一氧化碳作为示踪分子来探测。在这些观测结果基础上,理论工作者建立了一系列模型来解释和研究星际分子原子气体的转换,分子气体与恒星形成,分子气体和原子气体在星系形成和演化中所起的作用等,并为将来更进一步的观测提供了指导和预言。     

星系中分子气体与恒星形成的研究进展

星系中气体转化为恒星的过程决定了星系的结构和演化,因此研究恒星形成最直接的原料——分子气体的含量、分子气体形成恒星的规律以及会受哪些物理机制的影响,对于理解星系的形成和演化具有重要意义。近年来,随着观测技术和设备(尤其是射电望远镜)的发展,天文学家可以在不同尺度上探测到越来越多星系的多种分子多种能级跃迁的谱线。首先,介绍了探测分子气体的多种方法和新的发现;然后基于CO巡天数据和致密分子气体数据,分别在统计上讨论了分子气体分布及分子气体含量与恒星形成率之间的紧密关系,并与小尺度上的恒星形成理论进行了比较;最后,结合影响星系演化的物理过程,讨论活动星系核、星系形态以及星系所处环境对分子气体的影响。     

Kinematic study of the ring galaxy ARP 10

The results of a kinematic study of the peculiar galaxy Arp 10 carried out on the 6- m telescope of the Special Astrophysical Observatory, Russian Academy of Sciences, are given. The galaxy exhibits a complex velocity field, a departure of integral characteristics from the Tully — Fisher relation, a low mass-to-luminosity ratio, and an enhanced rate of star formation. The hypothesis that the observed features of Arp 10 were formed in the accretion of a companion onto a gas-rich spiral galaxy is discussed. Translated from Astrofizika, Vol. 41, No. 2, pp. 165–173, April-June, 1998.     

Multi-transition study of the peculiar merger Arp 299

We present a multi-transition study to investigate the physical properties of dust and molecular gas in the archetypical merger Arp 299 by using data including James Clerk Maxwell Telescope(JCMT)850 and 450 μm observations, Herschel 500, 350, 250, 160 and 70 μm continuum maps, as well as the CO(3–2), CO(4–3) low-J CO lines and CO(11–10), CO(13–12), CO(14–13) high-J CO lines. The CO(3–2) and CO(4–3) lines are observed by JCMT, and the CO(11–10), CO(13–12), CO(14–13) lines are available on the Herschel Science Archive. The resolution of the Herschel Spectral and Photometric Imaging Receiver(SPIRE) Fourier transform spectrometer(FTS) CO(11–10) data is similar to that of the JCMT CO(3–2) line, while the resolution of the SPIRE/FTS CO(13–12) and Photodetector Array Camera and Spectrometer(PACS) CO(14–13) data is similar to that of JCMT CO(4–3), allowing us to obtain accurate line ratios of I_(CO(11-10))/I_(CO(3-2)), I_(CO(13-12))/I_(CO(4-3))and I_(CO(14-13))/I_(CO(4-3)).By modeling the spectral energy distribution of the continuum data, we conclude that two components(cold and warm) exist in the dust, with the warm component occupying a small percent of the total dust mass. We further use a radiative transfer analysis code, RADEX, to calculate the density, temperature and column density of warm gas in the central region, which shows that the kinetic temperature Tkinis in the range 110 to 150 K and hydrogen density n(H_2) is in the range 10~(4.7)-10~(5.5)cm~(-3). We show that the hot dust is located in the central region of IC 694 with a radius of ~ 4′′and estimate that the warm gas mass is in the range 3.8 × 10~7M_⊙ to 7.7 × 10~7M_⊙, which contains 5.0%–15.0% of the total H_2 mass for the region of IC 694. We also calculate the star formation rate of the galaxy in particular,which is much higher than that of the Milky Way.     

Merging history trees for dark matter haloes: tests of the Merging Cell Model in a CDM cosmology

The merging history of dark matter haloes is computed with the Merging Cell Model proposed by Rodrigues & Thomas. While originally discussed in the case of scale-free power spectra, it is developed and tested here in the framework of the cold dark matter cosmology. The halo mass function, the mass distribution of progenitors and child haloes, as well as the probability distribution of formation times, have been computed and compared with the available analytic predictions. The halo autocorrelation function has also been obtained (a first for a semi-analytic merging tree), and tested against analytic formulae. An overall good agreement is found between results of the model, and the predictions derived from the Press & Schechter theory and its extensions. More severe discrepancies appear when formulae that better describe N -body simulations are used for comparison. In many instances, the model can be a useful tool for following the hierarchical growth of structures. In particular, it is suitable for addressing the issue of the formation and evolution of galaxy clusters, as well as the population of Lyman-break galaxies at high redshift, and their clustering properties.     

星系中原子和分子气体的半解析模型

星际气体是星系中重子物质的重要组成部分,其中的分子气体（主要是分子氢H₂）以及原子气体（主要是中性氢HI）对于星系中发生的各个物理过程至关重要。本文在前人的星系形成和演化的半解析模型基础上,加入了描述星系盘中分子气体和原子气体成分的物理模型,来研究分子气体和原子气体对于星系形成和演化所起的作用。我们主要使用了马普天体物理所Munich Group的L-Galaxies半解析星系形成模型,并借鉴了星系化学演化模型的方法,把半解析模型中的每一个星系盘分成了多个同心圆圈,然后在每个圈中分别追踪气体下落、分子气体和原子气体转化、恒星形成、金属增丰、超新星爆发加热冷气体等发生在星系盘上的物理过程,并且每个同心圈都是独立演化的。在我们的模型中,一个基本假设是每个时间步内气体都是以指数形式下落到星系盘上,并且直接叠加在已有的气体径向面密度轮廓之上,其中指数盘的标长r_d正比于星系所在暗物质晕的维里半径r_vir与旋转参量λ的乘积。我们的模型使用了两种描述分子气体形成的模型:一种是基于Krumholz等人解析模型的结果,其中分子气体的比例与局域气体面密度以及局域气体金属丰度相关;另一种是分子气体比例与星际压强相关的模型,根据Obreschkow等人的近似,分子气体的比例与气体面密度以及恒星质量面密度相关。由于恒星形成过程发生在星际巨分子云之中,并且根据Leroy等人的观测结果,恒星形成率面密度近似正比于分子气体的面密度,因此我们在模型中使用了与分子气体面密度相关的恒星形成规律。     

星系中分子气体物理性质的观测研究

为了研究亮红外星系中分子气体的物理性质,本论文给出了一个小样本近邻亮红外星系初步的观测结果、一个高红移星系IRAS F10214+4724的详细研究以及一个近邻亮红外星系ARP 302的高分辨研究.另外,对Perseus星系团中存在的分子气体给出了高分辨的观测,并研究其气体的运动学状态.对一个小样本的亮红外星系,得到了CO(J=3→2)的成图结果,揭示其气体分布都集中在星系中心或者是并合星系的中心及其星系核的重叠区域.对于其中的一个源NGC 3256,给出了其CO(J=3→2)、     

Environmental Effects in Galaxies: Molecular Gas and Nuclear Activity

Galactic X-ray emitters have been described by Giovannelli andSabau-Graziati (1993). We would address the bulk of this paper on HighMass X-Ray Binaries (HMXBs) and particularly in demonstrating theimportance of these systems as powerful laboratories to test the propertiesof high-energy physical processes through the multi-frequency studies oftheir behavior. Interactions between the two components of those systemsoriginate processes that manifest themselves along a large part of theelectromagnetic spectrum. Therefore it is possible to study indirectlyhigh-energy phenomena through the analysis oflow-energy phenomena with enormous advantages since the latter can bemainly studied via ground-based experiments, meanwhile the former can bestudied only by mean of space-based experiments, at least up to energiesof order 100 GeV.Moreover, since HMXBs are galactic, their emissions are the highestmeasurable; this renders such systems the most powerful laboratories to testtheories on collapsed objects, which can be scaled to extra-galactic distancesand dimensions. This fact suggests that HMXBs can be in general useful targetseven for small satellites, and in particular, in the X-ray energy range,very suitable targets for experiments like SIXE (Spanish Italian X-rayExperiment) to be launched in small satellites such as the Spanish MINISAT-02.     

Molecular Gas and Dust in the Massive Star Forming Region S 233 IR

The massive star forming region S 233 IR is observed in the molecular lines CO J = 2-1, 3-2, NH3 (1,1), (2,2) and the 870#m dust continuum. Four submillimeter continuum sources, labelled SMM 1-4, are revealed in the 870μm dust emission. The main core, SMM1, is found to be associated with a deeply embedded near infrared cluster in the northeast; while the weaker source SMM2 coincides with a more evolved cluster in the southwest. The best fit spectral energy distribution of SMM1 gives an emissivity of β = 1.6, and temperatures of 32 K and 92 K for the cold- and hot-dust components. An SMM1 core mass of 246 M⊙ and a total mass of 445 M⊙ are estimated from the 870μm dust continuum emission.SMM1 is found to have a temperature gradient decreasing from inside out, indicative of the presence of interior heating sources. The total outflow gas mass as traced by the CO J = 3-2 emission is estimated to be 35 M⊙. Low velocity outflows are also found in the NH3 (1,1) emission. The non-thermal dominant NH3 line width as well as the substantial core mass suggest that the SMM1 core is a “turbulent,massive dense core”, in the process of forming a group or a cluster of stars. The much higher star formation efficiency found in the southwest cluster supports the suggestion that this cluster is more evolved than the northeast one. Large near infrared photometric variations found in the source PCS-IR93, a previously found highly polarized nebulosity, indicate an underlying star showing the FU Orionis type of behavior.     

超新星遗迹SN1572周边的分子气体分布

超新星遗迹(supernova remnant,简写为SNR)在早期阶段的结构和演化是与周围星际介质环境密切相关的,这些星际介质也就成为研究SNR.演化的探针.观测了SN1572方向周围的12CO(J=1-0)谱线,拟调查SN 1572周围CO气体的分布,为研究SN 1572与周围分子气体的关系以及该超新星遗迹的演化提供观测依据.观测结果表明,在视向速度VLSR=-69～-58km s-1范围内的CO分子气体与SN 1572成协,此速度成分来自一个大尺度分子云.分子气体沿着SNR的射电壳边缘连续地但非均匀地分布,形成一个包围着SNR的半封闭的分子壳层.整个东半边有着增强的发射,尤其是东北边缘处的CO发射最强.峰值发射位置的谱线呈致宽(>5km s-1)的速度特征,结合光学,红外、X-射线等其它波段在对应位置上的已有观测,都表明了快速的激波和抛出物质正膨胀进入东北边缘的分子气体中,与稠密的气体发生相互作用.这种相互作用将对SN 1572今后的演化有着重要的影响.     

Molecular Gas Distribution around the Supernova Remnant G40.5-0.5

The distribution of dense molecular gas around the supernova remnant G40.5-0.5 has been investigated by radio spectroscopic observations in the CO (J = 1-0) transition. The molecular gas is found to extend over the entire region of G40.5-0.5. A molecular shell, with a diameter of - 26', coincides with the ionized gas as revealed by the cm-radio observations. This coincidence, along with the velocity discontinuity following the shell, provides direct evidence for interaction between the ionized gas and the dense molecular gas. No clear evidence for cosmic-ray acceleration can be identified from this SNR as previously suggested, due to positional uncertainty in relating the SNR shell defined by CO to the EGRET gamma-ray sources, GRO J1904 06, from the gamma-ray observations.