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1. Updated kinematics of the Radcliffe Wave: non-synchronous, dipole-like vertical oscillations

Author

Zhu, Zhi-Kai, Fang, Min, Lu, Zu-Jia, Wang, Junzhi, Li, Guang-Xing, Zhang, Shiyu, Pelkonen, Veli-Matti, Padoan, Paolo, and Liang, En-Wei

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

The kinematic structure of the Radcliffe Wave (RW) is crucial for understanding its origin and evolution. In this work, we present an accurate measurement of the vertical velocity $V_Z$ by where the radial velocity (RV) measures are taken into consideration. This is achieved in two ways. First, the velocities are measured towards Young Stellar Objects (YSOs), using their RV and proper motion measurements from APOGEE-2 and Gaia DR3. Second, we combine RV measurements toward clouds with proper motion measurements of associated YSOs to determine the vertical velocities of the clouds. The results reveal that the oscillations in $V_Z$ are not synchronous with the vertical coordinate. The difference is caused by a combination of the effect of the radial velocity which we include in this paper, and the difference in models. By supplementing our analysis with additional young star samples, we find a consistent dipole pattern in $V_Z$. The fact that no significant amplitude differences are found among the analyzed samples indicates that there is no apparent age gradient within the dipole. We propose that RW evolves at a relatively slow rate. The fact that it will take a much longer time for RW to complete a full period compared to the cloud lifetimes challenges its classification as a traditional "wave". This age discrepancy should explain the phase difference, and non-synchronous oscillation found in kinematic studies., Comment: 13 pages, 9 figures, submitted on 6 Feb 2024

Published
2024

2. The Dynamical State of Massive Clumps

Author

Lu, Zu-Jia, Pelkonen, Veli-Matti, Juvela, Mika, Padoan, Paolo, Haugbølle, Troels, and Nordlund, Åke

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

The dynamical state of massive clumps is key to our understanding of the formation of massive stars. In this work, we study the kinematic properties of massive clumps using synthetic observations. We have previously compiled a very large catalog of synthetic dust-continuum compact sources from our 250 pc, SN-driven, star formation simulation. Here, we compute synthetic $\rm N_{2}H^{+}$ line profiles for a subsample of those sources and compare their properties with the observations and with those of the corresponding three-dimensional (3D) clumps in the simulation. We find that the velocity dispersion of the sources estimated from the $\rm N_{2}H^{+}$ line is a good estimate of that of the 3D clumps, although its correlation with the source size is weaker than the velocity-size correlation of the 3D clumps. The relation between the mass of the 3D clumps, $M_{\rm main}$, and that of the corresponding synthetic sources, $M_{\rm SED}$, has a large scatter and a slope of 0.5, $M_{\rm main} \propto M_{\rm SED}^{0.5}$, due to uncertainties arising from the observational band-merging procedure and from projection effects along the line of sight. As a result, the virial parameters of the 3D clumps are not correlated with the clump masses, even if a negative correlation is found for the compact sources, and the virial parameter of the most massive sources may significantly underestimate that of the associated clumps., Comment: 19 pages, 12 figures, 1 table. Accepted for publication in MNRAS

Published
2021
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4. Physical Properties and Real Nature of Massive Clumps in the Galaxy

Author

Lu, Zu-Jia, Pelkonen, Veli-Matti, Juvela, Mika, Padoan, Paolo, Haugbølle, Troels, and Nordlund, Åke

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

Systematic surveys of massive clumps have been carried out to study the conditions leading to the formation of massive stars. These clumps are typically at large distances and unresolved, so their physical properties cannot be reliably derived from the observations alone. Numerical simulations are needed to interpret the observations. To this end, we generate synthetic Herschel observations using our large-scale star-formation simulation, where massive stars explode as supernovae driving the interstellar-medium turbulence. From the synthetic observations, we compile a catalog of compact sources following the exact same procedure as for the Hi-GAL compact source catalog. We show that the sources from the simulation have observational properties with statistical distributions consistent with the observations. By relating the compact sources from the synthetic observations to their three-dimensional counterparts in the simulation, we find that the synthetic observations overestimate the clump masses by about an order of magnitude on average due to line-of-sight projection, and projection effects are likely to be even worse for Hi-GAL Inner Galaxy sources. We also find that a large fraction of sources classified as protostellar are likely to be starless, and propose a new method to partially discriminate between true and false protostellar sources., Comment: 17 pages, 15 figures, submitted to MNRAS

Published
2021
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8. The Effect of Supernovae on the Turbulence and Dispersal of Molecular Clouds

Author

Lu, Zu-Jia, Pelkonen, Veli-Matti, Padoan, Paolo, Pan, Liubin, Haugbølle, Troels, and Nordlund, Åke

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

While the importance of supernova feedback in galaxies is well established, its role on the scale of molecular clouds is still debated. In this work, we focus on the impact of supernovae on individual clouds, using a high-resolution magneto-hydrodynamic simulation of a region of 250 pc where we resolve the formation of individual massive stars. The supernova feedback is implemented with real supernovae that are the natural evolution of the resolved massive stars, so their position and timing are self-consistent. We select a large sample of molecular clouds from the simulation to investigate the supernova energy injection and the resulting properties of molecular clouds. We find that molecular clouds have a lifetime of a few dynamical times, less then half of them contract to the point of becoming gravitationally bound, and the dispersal time of bound clouds, of order one dynamical time, is a factor of two shorter than that of unbound clouds. We stress the importance of internal supernovae, that is massive stars that explode inside their parent cloud, in setting the cloud dispersal time, and their huge overdensity compared to models where the supernovae are randomly distributed. We also quantify the energy injection efficiency of supernovae as a function of supernova distance to the clouds. We conclude that intermittent driving by supernovae can maintain molecular-cloud turbulence and may be the main process of cloud dispersal. The role of supernovae in the evolution of molecular clouds cannot be fully accounted for without a self-consistent implementation of their feedback., Comment: 33 pages, 23 figures, submitted to ApJ

Published
2020
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11. A novel energetic pyridine-2-carbohydrazide copper perchlorate complex: synthesis, cationic ligand structure and properties.

Author

Kuang, Bao-long, Lu, Zu-jia, Zhao, Bin-shan, Wang, Ting-wei, Sun, Mou, Zhang, Chao, Xu, Mei-qi, Yu, Qi-yao, and Zhang, Jian-guo

Subjects
*COPPER compounds, *FURAZANS, *ELEMENTAL analysis, *THERMAL stability, *INFRARED spectroscopy, *THERMAL properties, *EXPLOSIVES
Abstract

To synthesize lead-free primary explosives with good thermal stability, pyridine-2-carbohydrazide (2-PDCA) was used to prepare a novel energetic copper perchlorate complex (ECCs-1), which was structurally characterized by infrared spectroscopy, NMR, and elemental analysis. Its thermal decomposition properties were investigated by thermogravimetry and a synchrotron thermal analyzer, and the sensitivity was tested by the BAM method. The laser ignition experiment and the lead plate tests show that the ECCs-1 complex has a good detonation performance with a high thermal decomposition temperature (215.6 °C) and moderate sensitivity (impact sensitivity = 3 J and friction sensitivity = 5 N). [ABSTRACT FROM AUTHOR]

Published
2024
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12. Variabilities of Gamma-ray Bursts from Black Hole Hyper-accretion Disks

Author

Lin, Da-Bin, Lu, Zu-Jia, Mu, Hui-Jun, Liu, Tong, Hou, Shu-Jin, Lv, Jing, Gu, Wei-Min, and Liang, En-Wei

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

The emission from black hole binaries (BHBs) and active galactic nuclei (AGNs) displays significant aperiodic variabilities. The most promising explanation for these variabilities is the propagating fluctuations in the accretion flow. It is natural to expect that the mechanism driving variabilities in BHBs and AGNs may operate in a black hole hyper-accretion disk, which is believed to power gamma-ray bursts (GRBs). We study the variabilities of jet power in GRBs based on the model of propagating fluctuations. It is found that the variabilities of jet power and the temporal profile of erratic spikes in this scenario are similar to those in observed light curves of prompt gamma-ray emission of GRBs. Our results show that the mechanism driving X-ray variabilities in BHBs and AGNs may operate in the central engine to drive the variabilities of GRBs., Comment: 6 pages, 2 figures, accepted for publication in MNRAS

Published
2016
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16. On the Late-Time Spectral Softening Found in X-ray Afterglows of Gamma-Ray Bursts

Author

Wang, Yuan-Zhu, Zhao, Yinan, Shao, Lang, Liang, En-Wei, and Lu, Zu-Jia

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Strong spectral softening has been revealed in the late X-ray afterglows of some gamma-ray bursts (GRBs). The scenario of X-ray scattering around circum-burst dusty medium has been supported by previous works due to its overall successful prediction of both the temporal and spectral evolution of some X-ray afterglows. To further investigate the observed feature of spectral softening, we now systematically search the X-ray afterglows detected by X-Ray Telescope (XRT) of Swift and collect twelve GRBs with significant late-time spectral softening. We find that dust scattering could be the dominant radiative mechanism for these X-ray afterglows regarding their temporal and spectral features. For some well observed bursts with high-quality data, their time-resolved spectra could be well produced within the scattering scenario by taking into account the X-ray absorption from circum-burst medium. We also find that during spectral softening the power-law index in the high energy end of the spectra does not vary much. The spectral softening is mainly manifested by the spectral peak energy continually moving to the soft end., Comment: Accepted for publication in ApJ; 25 pages, 2 figures

Published
2016
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17. Correlations of Disk and Jet Emission Deviating from the Fundamental Plane

Author

Lin, Da-Bin, Gu, Wei-Min, Mu, Hui-Jun, Lu, Zu-Jia, Ma, Ren-Yi, and Liang, En-Wei

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

The variability of accretion rate, which is believed to induce the aperiodic variability of X-ray emission from disk, may affect the energy injection into the jet. In this spirit, a correlation between disk emission and jet emission can be formed even if the mean luminosity of disk emission keeps constant. In this work, these correlations are found in the situation that the luminosity of disk emission is variable and kept with a constant mean value. The obtained correlations may be shallower than that of the fundamental plane of black hole activity. In addition, the slope of correlation may increase with increasing observed frequency of jet emission. For the luminosities spacing with three days, the slope of correlation decreases with increasing black hole mass. The deviation of our found correlations from that of the fundamental plane is related to the suppression of variability in the jet emission in comparison with that in the disk emission. This mechanism may work in some sources in which shallower correlations have been reported. Moreover, it implies that luminosities used to estimate the relation of fundamental plane should cover an appropriate timescale, in which the variability of jet emission is not significantly suppressed., Comment: 19 pages, 5 figures, accepted for publication in ApJ

Published
2015
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20. Synthesis, Structure and Properties Analysis of Energetic Ionic Salt 3-Hydrazinium-5-amino-1H-1, 2, 4-triazotium Dinitrate.

Author

YANG Zhen-li, YAO Ya-dong, ZHANG Jian-guo, and LU Zu-jia

Subjects
FURAZANS, MONOCLINIC crystal system, HYDROGEN bonding interactions, METATHESIS reactions, SALT, THERMAL stability
Abstract

To obtain high-performance energetic materials, 3,5-diamino-1,2,4-triazole was utilized as a raw material to synthesize 3-hydrazinyl-5-amino-1H-1,2,4-triazolium dihydrochloride(compound 1)through diazotization and reduction reactions. A novel energetic ionic salt, 3-hydrazinyl-5-amino-1H-1,2,4-triazolium dinitrate(compound 2), was prepared by the metathesis reaction of compound 1 with silver nitrate. The structure of compound 2 was characterized using various techniques including FTIR, NMR, mass spectrometry, elemental analysis, and single-crystal X-ray diffraction. Thermal decomposition of compound 2 was studied by DSC and TG. The contribution of hydrogen bonding to the intermolecular interactions in the crystal of compound 2 was calculated using Crystal Explorer software. The detonation and safety properties of compound 2 were also investigated. The results show that compound 2 belongs to monoclinic crystal system with space group P2/n and cell parameters a=6.9296Å,b=9.9082Å,c=13.3696Å,α=90.00°,β=103.51(2)°,γ=90.00°,V=892.54(11)Å3. It exhibits excellent thermal stability with a thermal decomposition temperature of 189.7°C. Furthermore, compound 2 demonstrates outstanding detonation performance and low sensitivity, with detonation velocity and pressure values of 8673m/s and 32.5GPa, respectively. The friction sensitivity and impact sensitivity are 112N and 25J, respectively. [ABSTRACT FROM AUTHOR]

Published
2023
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24. Constructing a graphene-like structure to lower friction sensitivity: Ag(I) complexes based on furan-2,5-dicarbohydrazide.

Author

Zhang, Chao, Wang, Ting-wei, Lu, Zu-jia, Yi, Zhen-xin, Kuang, Bao-long, Xie, Zhi-ming, Li, Yan, and Zhang, Jian-guo

Subjects
FRICTION, HEAT conduction, FURAZANS, INFRARED spectroscopy, ELEMENTAL analysis, X-ray diffraction
Abstract

In the field of energetic materials, high sensitivity has always been one of the obstacles restricting the practical application of energetic materials. In order to meet the practical application requirements, there are various methods to lower sensitivity, among which doping multilayer graphene is one of the important methods to reduce the friction sensitivity of energetic compounds in recent years. A multilayer graphene structure has the obvious characteristics of a weak interaction between layers and a strong interaction between atoms in layers. This special structure makes it slip between layers when it encounters friction, thus reducing the heat conduction efficiency and hindering the generation of hot spots, and finally shows the effect of lowering friction sensitivity on a macro level. Inspired by this mechanism, we designed and synthesized a ligand furan-2,5-dicarbohydrazide (FDCA) and its Ag(I)-based metal complex ([Ag(FDCA)ClO4]n, ECP-1) with a graphene-like structure. The structure of the product was confirmed using single-crystal X-ray diffraction, infrared spectroscopy and elemental analysis. ECP-1 exhibits excellent explosion performance and initiation ability, but also shows a low friction sensitivity (FS = 84 N), which is in sharp contrast with a sensitive impact sensitivity (IS = 4 J). The simple preparation method and unique structure enrich research on lowering the mechanical sensitivity of primary explosives. [ABSTRACT FROM AUTHOR]

Published
2023
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25. Combining the advantages of 1,3,4-oxadiazole and tetrazole enables achieving high-energy insensitive materials.

Author

Zhang, Chao, Xu, Mei-Qi, Dong, Wen-Shuai, Lu, Zu-Jia, Zhang, Han, Wu, Xiao-Wei, Li, Zhi-Min, and Zhang, Jian-Guo

Subjects
TETRAZOLES, AZO compounds, SINGLE crystals, THERMAL stability, HETEROCYCLIC compounds
Abstract

Combining the advantages of energetic heterocycles to achieve high-energy insensitive explosives is a significant challenge. Herein, based on high-energy tetrazole rings and highly stable 1,3,4-oxadiazole rings, a series of novel nitrogen rich energetic compounds 5–9 were successfully constructed. The related compounds were fully characterized by EA, FT-IR, NMR, DSC, and MS, and compounds 6–9 were further confirmed by X-ray single crystal diffraction. Among them, the energetic ion salts 6–8 show high thermal stability (Tdec > 250 °C) and low mechanical sensitivity (IS > 40 J, FS > 360 N), as well as good energy properties (7552–8050 m s−1, 19.4–23.3 GPa). In particular, the azo compound 9 exhibits competent comprehensive performances (Tdec = 226.2 °C, D = 8502 m s−1, P = 28.9 GPa, IS = 32 J, FS = 320 N). These results suggest that the strategy of integrating tetrazole and 1,3,4-oxadiazole and employing an azo structure as a bridging unit are effective approaches to construct high-energy insensitive materials. [ABSTRACT FROM AUTHOR]

Published
2023
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26. A multi-fused heat-resistant energetic compound constructed by hydrogen bonds.

Author

Hu, Yong, Dong, Wen-Shuai, Lu, Zu-Jia, Zhang, Han, and Zhang, Jian-Guo

Subjects
HYDROGEN bonding, THERMAL stability, DIAMINES, SYMMETRY
Abstract

The design of heat-resistant energetic compounds generally employs symmetry, planarity, and multi-hydrogen bonds to obtain compounds with high density, good thermal stability, and low sensitivity. In this paper, a heat-resistant hydrazine-bridged compound, 6,6′-(hydrazine-1,2-diyl)bis(5-nitropyrimidine-2,4-diamine) (PHP), was designed and synthesized with the strategy of multi-fused conjugated structure constructed by hydrogen bonds. The compound featured high symmetry, high planarity, and strong conjugation with good thermal stability (364 °C). This strategy provides a basis for the design of heat-resistant energetic compounds. [ABSTRACT FROM AUTHOR]

Published
2023
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33. Study on Primary Explosive: Cu(ClO4)2-Based Energetic Coordination Compounds as a Template

Author

Wang, Ting-wei, Lu, Zu-jia, Yi, Zhen-xin, Xie, Zhi-ming, Zhang, Lu, Kuang, Bao-long, Li, Yan, and Zhang, Jian-guo

Abstract

In order to study the design and preparation of new coordination primary explosive, the influence of ligand on the performance was explored. Using the low-energy, low-nitrogen pyrrole as the skeleton and the hydrazide group as the target, the ligand 1H-pyrrole-2-carbohydrazide (PRCA) was designed, the two ECCs [Cu(PRCA)2(H2O)(ClO4)]ClO4·C2H5OH (ECCs-1·C2H5OH) and [Cu(PRCA)2(H2O)(ClO4)]ClO4·2H2O (ECCs-1·2H2O) were prepared, and [Cu(PRCA)2(H2O)(ClO4)]ClO4(ECCs-1) was obtained by a simple drying method. The structure of the target compound was confirmed by single-crystal X-ray diffraction, infrared (IR), and elemental analysis (EA) characterization. Physicochemical performance tests show that ECCs-1has better thermal stability (Td= 219 °C) and is more sensitive to impact sensitivity (IS = 7 J) and friction sensitivity (FS = 16 N). The detonation performance prediction results show that the detonation velocity and pressure of ECCs-1are not high (DEXPLO 5= 6.2 km s–1, PEXPLO 5= 16.2 GPa). However, detonation performance tests show that ECCs-1has an extremely strong detonation ability.

Published
2023
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37. Synthesis, Crystal Structure, and Characterization of Energetic Salts Based on 3,5-Diamino-4 H -Pyrazol-4-One Oxime.

Author

Dong, Wen-Shuai, Zhang, Lu, Cao, Wen-Li, Lu, Zu-Jia, Tariq, Qamar-un-Nisa, Zhang, Chao, Wu, Xiao-Wei, Li, Zong-You, and Zhang, Jian-Guo

Subjects
FURAZANS, OXIMES, CRYSTAL structure, HEAT of formation, DIFFERENTIAL scanning calorimetry, STACKING interactions, ELEMENTAL analysis
Abstract

In order to broaden the study of energetic cations, a cation 3,5-diamino-4H-pyrazol-4-one oxime (DAPO) with good thermal stability was proposed, and its three salts were synthesized by a simple and efficient method. The structures of the three salts were verified by infrared spectroscopy, mass spectrometry, elemental analysis, and single crystal X-ray diffraction. The thermal stabilities of the three salts were verified by differential scanning calorimetry and thermos-gravimetric analysis. DAPO-based energetic salts are analysed using a variety of theoretical techniques, such as 2D fingerprint, Hirshfeld surface, and non-covalent interaction. Among them, the energy properties of perchlorate (DAPOP) and picrate (DAPOT) were determined by EXPLO5 program combined with the measured density and enthalpy of formation. These compounds have high density, acceptable detonation performance, good thermal stability, and satisfactory sensitivity. The intermolecular interactions of the four compounds were studied by Hirshfeld surface and non-covalent interactions, indicating that hydrogen bonds and π–π stacking interactions are the reasons for the extracellular properties of perchlorate (DAPOP) and picrate (DAPOT), indicating that DAPO is an optional nitrogen-rich cation for the design and synthesis of novel energetic materials with excellent properties. [ABSTRACT FROM AUTHOR]

Published
2023
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43. Physical properties and real nature of massive clumps in the galaxy.

Author

Lu, Zu-Jia, Pelkonen, Veli-Matti, Juvela, Mika, Padoan, Paolo, Haugbølle, Troels, and Nordlund, Åke

Subjects
*SUPERGIANT stars, *DISTRIBUTION (Probability theory), *STAR formation, *SUPERNOVAE
Abstract

Systematic surveys of massive clumps have been carried out to study the conditions leading to the formation of massive stars. These clumps are typically at large distances and unresolved, so their physical properties cannot be reliably derived from the observations alone. Numerical simulations are needed to interpret the observations. To this end, we generate synthetic Herschel observations using our large-scale star-formation simulation, where massive stars explode as supernovae driving the interstellar-medium turbulence. From the synthetic observations, we compile a catalogue of compact sources following the exact same procedure as for the Hi-GAL compact source catalogue. We show that the sources from the simulation have observational properties with statistical distributions consistent with the observations. By relating the compact sources from the synthetic observations to their 3D counterparts in the simulation, we find that the synthetic observations overestimate the clump masses by about an order of magnitude on average due to line-of-sight projection, and projection effects are likely to be even worse for Hi-GAL Inner Galaxy sources. We also find that a large fraction of sources classified as protostellar are likely to be starless, and propose a new method to partially discriminate between true and false protostellar sources. [ABSTRACT FROM AUTHOR]

Published
2022
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50. Combining the advantages of 1,3,4-oxadiazole and tetrazole enables achieving high-energy insensitive materials.

Author

Zhang C, Xu MQ, Dong WS, Lu ZJ, Zhang H, Wu XW, Li ZM, and Zhang JG

Abstract

Combining the advantages of energetic heterocycles to achieve high-energy insensitive explosives is a significant challenge. Herein, based on high-energy tetrazole rings and highly stable 1,3,4-oxadiazole rings, a series of novel nitrogen rich energetic compounds 5-9 were successfully constructed. The related compounds were fully characterized by EA, FT-IR, NMR, DSC, and MS, and compounds 6-9 were further confirmed by X-ray single crystal diffraction. Among them, the energetic ion salts 6-8 show high thermal stability ( T dec > 250 °C) and low mechanical sensitivity (IS > 40 J, FS > 360 N), as well as good energy properties (7552-8050 m s -1 , 19.4-23.3 GPa). In particular, the azo compound 9 exhibits competent comprehensive performances ( T dec = 226.2 °C, D = 8502 m s -1 , P = 28.9 GPa, IS = 32 J, FS = 320 N). These results suggest that the strategy of integrating tetrazole and 1,3,4-oxadiazole and employing an azo structure as a bridging unit are effective approaches to construct high-energy insensitive materials.

Published
2023
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