Presentation is loading. Please wait.

Presentation is loading. Please wait.

The origin of primordial black holes

Published byOve Jacobsen Modified over 5 years ago

Similar presentations

Presentation on theme: "The origin of primordial black holes"— Presentation transcript:

1 The origin of primordial black holes
Zong-Kuan Guo 2018年引力与宇宙学研讨会

2  a candidate for dark matter
1. Motivations  a candidate for dark matter 1998, 2011 Credit:

3  a candidate for dark matter  providing seeds for supermassive BHs
1. Motivations  a candidate for dark matter  providing seeds for supermassive BHs Credit: 72

4  a candidate for dark matter  providing seeds for supermassive BHs
1. Motivations  a candidate for dark matter  providing seeds for supermassive BHs  accounting for the LIGO events Credit: PRL 117, PBH merger rate LIGO 𝑀~10 𝑀 ⨀ 𝑓 PBH

5

6

7

8 2. Constraints on the abundance of PBHs

9 3. The origin of PBHs false vacuum vacuum true vacuum false vacuum
 from early universe phase transition 𝑉(𝜙) false vacuum vacuum true vacuum false vacuum

10  from preheating after inflation
3. The origin of PBHs  from early universe phase transition  from preheating after inflation J Liu, ZKG, RG Cai, G Shiu, PRL 120 (2018) ; Lang Liu, J Liu, ZKG, RG Cai, in preparation

11  from preheating after inflation
3. The origin of PBHs  from early universe phase transition  from preheating after inflation  from large primordial perturbations on small scales 79’ Guth ~7𝜎

12 new physics? power spectrum of primordial curvature perturbations 𝑘 PBH Credit:

13 1/(𝑎𝐻) 1/𝑘 ln 𝑎 ∗ ln 𝑎 𝑒 ln 𝑎 eq 𝑀=𝛾 4𝜋 3 𝜌 𝐻 −3 =𝛾4𝜋 𝑀 pl 2 𝐻 −1
𝛽 𝑀 = 𝛿 𝑐 ∞ 𝑑𝛿 2𝜋 𝜎 𝑒 − 𝛿 2 2 𝜎 2 1/𝑘 𝛽 𝑀, 𝑡 eq = 𝑎( 𝑡 eq ) 𝑎( 𝑡 PBH ) 𝛽 𝑀 𝑓 PBH (𝑀)≡ Ω PBH (𝑀) Ω DM ln 𝑎 ∗ ln 𝑎 𝑒 ln 𝑎 eq the efficiency factor 𝛾~𝒪(1) ? the threshold 𝛿 𝑐 =0.07 − 0.7 ?

14 hybrid-type inflation
Credit:

15 𝑉(𝜙) 𝜙 𝜙 PBH 𝜙 ∗ 𝒫 ℛ = 1 12 𝜋 2 𝑀 pl 6 𝑉 3 𝑉 𝜙 2 50< 𝑁 ∗ <60
𝑢 𝑘 ′′ + 𝑘 2 − 𝑧 ′′ 𝑧 𝑢 𝑘 =0 𝜙 PBH 𝜙 ∗ 𝜖 0 = 1 𝐻 , 𝜖 𝑖+1 = 𝑑 ln | 𝜖 𝑖 | 𝑑𝑁 𝐴 𝑠 =(2.10±0.03)× 10 −9 𝑛 𝑠 =0.9649±0.0044 𝛼=−0.0065±0.0066 𝑟<0.07

16 𝑉(𝜙) 𝜙 𝜙 PBH 𝜙 ∗ T.J. Gao, ZKG, PRD 98 (2018) 063526
𝑉= 𝑒 𝐾 [ 𝐷 𝑖 𝑊 𝐾 −1 𝑖 𝑗 (𝐷 𝑗 𝑊) ∗ −3 |𝑊| 2 ] 𝑉(𝜙) 𝐷 𝑖 𝑊= 𝜕 𝑖 𝑊+ 𝜕 𝑖 𝐾 𝑊 𝐾 𝑖 𝑗 = 𝜕 2 𝐾 𝜕 Φ 𝑖 𝜕 Φ 𝑗 𝜙 𝜙 PBH 𝜙 ∗ 𝐾=𝑖𝑐 Φ− Φ − Φ− Φ 2 − 𝜁 4 (Φ− Φ ) 4 𝑊= 𝑎 0 (1+ 𝑎 1 𝑒 − 𝑏 1 Φ + 𝑎 2 𝑒 − 𝑏 2 Φ + 𝑎 3 𝑒 − 𝑏 3 Φ )

17

18

19 4. Open questions  the evolution of PBHs
 to distinguish PBHs from astrophysical BHs  the evolution of PBHs

20 Thanks for your attention!

Download ppt "The origin of primordial black holes"

Similar presentations

Quantum Gravity and the Cosmological Constant Enikő Regős Enikő Regős.

Quantum Gravity and the Cosmological Constant Enikő Regős Enikő Regős.
The first stars formation in warm dark matter model Liang Gao National Observatories, China.

The first stars formation in warm dark matter model Liang Gao National Observatories, China.
Temporal enhancement of super-horizon scale curvature perturbations from decays of two curvatons and its cosmological implications. Teruaki Suyama (Research.

Temporal enhancement of super-horizon scale curvature perturbations from decays of two curvatons and its cosmological implications. Teruaki Suyama (Research.
TAUP Sendai Sep 11 2007 Cosmic rays emitted by PBHs in a 5D RS braneworld Yuuiti Sendouda (Yukawa Inst., Kyoto) with S. Nagataki (YITP), K.

TAUP Sendai Sep Cosmic rays emitted by PBHs in a 5D RS braneworld Yuuiti Sendouda (Yukawa Inst., Kyoto) with S. Nagataki (YITP), K.
Primordial Neutrinos and Cosmological Perturbation in the Interacting Dark-Energy Model: CMB and LSS Yong-Yeon Keum National Taiwan University SDSS-KSG.

Primordial Neutrinos and Cosmological Perturbation in the Interacting Dark-Energy Model: CMB and LSS Yong-Yeon Keum National Taiwan University SDSS-KSG.
Waves and Bubbles The Detailed Structure of Preheating Gary Felder.

Waves and Bubbles The Detailed Structure of Preheating Gary Felder.
Theoretical work on Cosmology and Structure Formation Massimo Ricotti.

Theoretical work on Cosmology and Structure Formation Massimo Ricotti.
Primordial Gravitational Waves Sirichai Chongchitnan (with George Efstathiou) Institute of Astronomy University of Cambridge 25th September 2006 Is it.

Primordial Gravitational Waves Sirichai Chongchitnan (with George Efstathiou) Institute of Astronomy University of Cambridge 25th September 2006 Is it.
Black holes: Introduction. 2 Main general surveys astro-ph/0610657 Neven Bilic BH phenomenology astro-ph/0604304 Thomas W. Baumgarte BHs: from speculations.

Black holes: Introduction. 2 Main general surveys astro-ph/ Neven Bilic BH phenomenology astro-ph/ Thomas W. Baumgarte BHs: from speculations.
Physics 202: Introduction to Astronomy – Lecture 22 Carsten Denker Physics Department Center for Solar–Terrestrial Research.

Physics 202: Introduction to Astronomy – Lecture 22 Carsten Denker Physics Department Center for Solar–Terrestrial Research.
Cosmic Microwave Radiation Anisotropies in brane worlds K. Koyama astro-ph/030310 K. Koyama PRD 66 084003(2002) Kazuya Koyama Tokyo University.

Cosmic Microwave Radiation Anisotropies in brane worlds K. Koyama astro-ph/ K. Koyama PRD (2002) Kazuya Koyama Tokyo University.
IFIC, 6 February 2007 Julien Lesgourgues (LAPTH, Annecy)

IFIC, 6 February 2007 Julien Lesgourgues (LAPTH, Annecy)
Prof. Eric Gawiser Galaxy Formation Seminar 2: Cosmological Structure Formation as Initial Conditions for Galaxy Formation.

Prof. Eric Gawiser Galaxy Formation Seminar 2: Cosmological Structure Formation as Initial Conditions for Galaxy Formation.
Primordial BHs. 2 Main reviews and articles astro-ph/0504034 Primordial Black Holes - Recent Developments astro-ph/0304478 Gamma Rays from Primordial.

Primordial BHs. 2 Main reviews and articles astro-ph/ Primordial Black Holes - Recent Developments astro-ph/ Gamma Rays from Primordial.
Cosmological evolution of Black Hole Spins Nikos Fanidakis and C. Baugh, S. Cole, C. Frenk NEB-XIII, Thessaloniki, June 4-6, 2008.

Cosmological evolution of Black Hole Spins Nikos Fanidakis and C. Baugh, S. Cole, C. Frenk NEB-XIII, Thessaloniki, June 4-6, 2008.
Black hole production in preheating Teruaki Suyama (Kyoto University) Takahiro Tanaka (Kyoto University) Bruce Bassett (ICG, University of Portsmouth)

Black hole production in preheating Teruaki Suyama (Kyoto University) Takahiro Tanaka (Kyoto University) Bruce Bassett (ICG, University of Portsmouth)
Why there are many alternatives to inflation ? Why there are many alternatives to inflation ? 朴云松 朴云松 Graduated University of CAS Graduated University.

Why there are many alternatives to inflation ? Why there are many alternatives to inflation ? 朴云松 朴云松 Graduated University of CAS Graduated University.
Probing the Reheating with Astrophysical Observations Jérôme Martin Institut d’Astrophysique de Paris (IAP) 1 [In collaboration with K. Jedamzik & M. Lemoine,

Probing the Reheating with Astrophysical Observations Jérôme Martin Institut d’Astrophysique de Paris (IAP) 1 [In collaboration with K. Jedamzik & M. Lemoine,
The Problem of Initial Conditions for Primordial Black Hole Formation and Asymptotic Quasi-Homogeneous Solution. Alexander Polnarev Queen Mary, University.

The Problem of Initial Conditions for Primordial Black Hole Formation and Asymptotic Quasi-Homogeneous Solution. Alexander Polnarev Queen Mary, University.
Primordial black hole formation in an axion-like curvaton model Primordial black hole formation in an axion-like curvaton model 北嶋直弥 東京大学 / 宇宙線研究所 M. Kawasaki,

Primordial black hole formation in an axion-like curvaton model Primordial black hole formation in an axion-like curvaton model 北嶋直弥 東京大学 / 宇宙線研究所 M. Kawasaki,

Similar presentations

Ads by Google