Dark matter halo mass function and density profile from mass and energy cascade
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Dark matter halo mass function and density profile from mass and energy cascade
Halo abundance and structure play a central role for modeling structure formation and evolution. Without relying on a spherical or ellipsoidal collapse model, we analytically derive the halo mass function and cuspy halo density (inner slope of -4/3) based on the mass and energy cascade theory in dark matter flow. The hierarchical halo structure formation leads to halo or particle random walk with a position-dependent waiting time \(\tau_g\). First, the inverse mass cascade from small to large scales leads to the halo random walk in mass space with \(\tau_g\propto m_h^{-\lambda}\), where \(m_h\) is the halo mass and \(\lambda\) is a halo geometry parameter with predicted value of 2/3. The corresponding Fokker-Planck solution for halo random walk in mass space gives rise to the halo mass function with a power-law behavior on small scale and exponential decay on large scale. This can be further improved by considering two different \(\lambda\) for haloes below and above a critical mass scale \(m_h^*\), i.e. a double-\(\lambda\) halo mass function. Second, a double-\(\gamma\) density profile can be derived based on the particle random walk in 3D space with a position-dependent waiting time \(\tau_g \propto \Phi(r)^{-1} \propto r^{-\gamma}\), where \(\Phi\) is the gravitational potential and \(r\) is the particle distance to halo center. Theory predicts \(\gamma=2/3\) that leads to a cuspy density profile with an inner slope of -4/3, consistent with the predicted scaling laws from energy cascade. The Press-Schechter mass function and Einasto density profile are just special cases of proposed models. The small scale permanence can be identified due to the scale-independent rates of mass and energy cascade, where density profiles of different halo masses and redshifts converge to the -4/3 scaling law (\(\rho_h \propto r^{-4/3}\)) on small scales. Theory predicts the halo number density scales with halo mass as \(\propto m_h^{-1.9}\), while the halo mass density scales as \(\propto m_h^{4/9}\). Results were compared against the Illustris simulations. This new perspective provides a theory for nearly universal halo mass functions and density profiles.
Applications of cascade and statistical theory for dark matter and bulge-SMBH evolution:
- Dark matter particle mass ,size, and properties from energy cascade in dark matter flow: 1) arxiv 2) zenodo slides
- Origin of MOND acceleration & deep-MOND from acceleration fluctuation & energy cascade: 1) arxiv 2) zenodo slides
- The baryonic-to-halo mass relation from mass and energy cascade in dark matter flow: 1) arxiv 2) zenodo slides
- Universal scaling laws and density slope for dark matter haloes: 1) arxiv 2) zenodo slides 3) paper
- Dark matter halo mass functions and density profiles from mass/energy cascade: 1) arxiv 2) zenodo slides 3) paper
- Energy cascade for distribution and evolution of supermassive black holes (SMBHs): 2) zenodo slides
Condensed slides for all applications "Cascade Theory for Turbulence, Dark Matter, and bulge-SMBH evolution "
The two relevant datasets and accompanying presentation can be found at:
- Dark matter flow dataset Part I: Halo-based statistics from cosmological N-body simulation
- Dark matter flow dataset Part II: Correlation-based statistics from cosmological N-body simulation.
- A comparative study of Dark matter flow & hydrodynamic turbulence and its applications
The same dataset also available on Github at: Github: dark_matter_flow_dataset and zenodo at: Dark matter flow dataset from cosmological N-body simulation.
Cascade and statistical theory developed by these datasets:
- Inverse mass cascade in dark matter flow and effects on halo mass functions: 1) arxiv 2) zenodo slides
- Inverse mass cascade and effects on halo deformation, energy, size, and density profiles: 1) arxiv 2) zenodo slides
- Inverse energy cascade in dark matter flow and effects of halo shape: 1) arxiv 2) zenodo slides
- The mean flow, velocity dispersion, energy transfer and evolution of dark matter halos: 1) arxiv 2) zenodo slides
- Two-body collapse model and generalized stable clustering hypothesis for pairwise velocity 1) arxiv 2) zenodo slides
- Energy, momentum, spin parameter in dark matter flow and integral constants of motion: 1) arxiv 2) zenodo slides
- Maximum entropy distributions of dark matter in ΛCDM cosmology: 1) arxiv 2) zenodo slides 3) paper
- Halo mass functions from maximum entropy distributions in dark matter flow: 1) arxiv 2) zenodo slides
- On the statistical theory of self-gravitating collisionless dark matter flow: 1) arxiv 2) zenodo slides 3) paper
- High order kinematic and dynamic relations for velocity correlations in dark matter flow: 1) arxiv 2) zenodo slides
- Evolution of density and velocity distributions and two-thirds law for pairwise velocity: 1) arxiv 2) zenodo slides
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Related works
- Cites
- Presentation: 10.5281/zenodo.6569901 (DOI)
- Dataset: 10.5281/zenodo.6569898 (DOI)
- Dataset: 10.5281/zenodo.6541230 (DOI)