פרופ' שחר הוד (Ph.D)

• תורת-היחסות של אינשטיין
• פיזיקה של חורים-שחורים
• יחסות כללית סמי-קלאסית
• פיזיקה בין-תחומית

Articles in Refereed Journals

I.F = Impact Factor.
R = Rank.
N = Number of citations.
* = Publications since last promotion.

For papers published in the Physical Review: (x-y) means page numbers.

My h-index = 33 

(1) S. Hod and T. Piran,

Fine structure of Choptuik's mass-scaling relation,
Physical Review D 55, Rapid Communication, 440-442 (1997).

I.F=4.37 ; R=7/29
N = 67 

(2)  S. Hod and T. Piran,

Critical behavior and universality in gravitational collapse of a charged scalar field,
Physical Review D 55, 3485-3496 (1997).

I.F=4.37 ; R=7/29
N = 68 

(3)  S. Hod and T. Piran,

Late-time evolution of charged gravitational collapse and decay of charged scalar hair – I,
Physical Review D 58, 024017(1-6) (1998).

I.F=4.37 ; R=7/29
N = 107 

(4)  S. Hod and T. Piran,

Late-time evolution of charged gravitational collapse and decay of charged scalar hair – II,
Physical Review D 58, 024018(1-6) (1998).

I.F=4.37 ; R=7/29
N = 72 

(5)  S. Hod and T. Piran,

Late-time evolution of charged gravitational collapse and decay of charged scalar hair - III. Nonlinear analysis,
Physical Review D 58, 024019(1-6) (1998).

I.F=4.37 ; R=7/29
N = 64 

(6)  S. Hod and T. Piran,

Late-time tails in gravitational collapse of a self-interacting (massive) scalar-field and decay of a self-interacting scalar hair,
Physical Review D 58, 044018(1-6) (1998).

I.F=4.37 ; R=7/29

N = 86 

(7)  S. Hod and T. Piran,

Mass inflation in dynamical gravitational collapse of a charged scalar field, Physical Review Letters 81, 1554-1557 (1998).

I.F=8.84 ; R=6/78
N = 89

(8)  S. Hod and T. Piran,

The inner structure of black holes,
General Relativity and Gravitation 30, 1555-1559 (1998).

[This essay is awarded 2nd Prize in the 1998 Essay Competition of the Gravity Research Foundation].

I.F=1.72; R=39/78
N = 40 

(9)  S. Hod,

Late-time evolution of realistic rotating collapse and the no-hair theorem, Physical Review D 58, 104022(1-7) (1998).

I.F=4.37 ; R=7/29
N = 68 

(10)  S. Hod,

Bohr's correspondence principle and the area spectrum of quantum black holes,
Physical Review Letters 81, 4293-4296 (1998).

I.F=8.84 ; R=6/78
N = 608 

(11)  S. Hod,

Best approximation to a reversible process in black-hole physics and the area spectrum of spherical black holes,
Physical Review D 59, 024014(1-4) (1998).

I.F=4.37 ; R=7/29
N = 64 

(12)  S. Hod,

Black-hole polarization and cosmic censorship,
Physical Review D 60, 104031(1-3) (1999).

I.F=4.37 ; R=7/29
N = 16 

(13)  S. Hod,

High-order contamination in the tail of gravitational collapse,
Physical Review D 60, 104053(1-4) (1999).

I.F=4.37 ; R=7/29
N = 31 

(14)  S. Hod,

Mode-coupling in rotating gravitational collapse of a scalar field,
Physical Review D 61, 024033(1-8) (1999).

I.F=4.37 ; R=7/29
N = 57 

(15)  S. Hod,

Universal entropy bound for rotating systems,
Physical Review D 61, 024018(1-4) (1999).

I.F=4.37 ; R=7/29
N = 25 

(16)  S. Hod,

Improved upper bound to the entropy of a charged system,
Physical Review D 61, 024023(1-3) (1999).

I.F=4.37 ; R=7/29
N = 37 

(17)  S. Hod,

Gravitation, the quantum, and Bohr's correspondence principle,
General Relativity and Gravitation 31, 1639-1644 (1999).

[This essay is awarded 5th Prize in the 1999 Essay Competition of the Gravity Research Foundation].

I.F=1.72; R=39/78
N = 54 

(18)  S. Hod,

Mode-coupling in rotating gravitational collapse: Gravitational and electromagnetic perturbations,
Physical Review D 61, 064018(1-7) (2000).

I.F=4.37 ; R=7/29
N = 36

(19)  S. Hod,

Cosmic censorship: The role of quantum physics,
e-print gr-qc/9908004 (1999).

N = 7 

(20)  S. Hod,

Radiative tail of realistic rotating gravitational collapse,
Physical Review Letters 84, 10-13 (2000).

I.F=8.84 ; R=6/78
N = 52 

(21)  S. Hod and T. Piran,

Cosmic censorship: The role of quantum gravity,
General Relativity and Gravitation 30, 1555-1559 (2000).

[This essay is awarded 2nd Prize in the 2000 Essay Competition of the Gravity Research Foundation].

I.F=1.72; R=39/78
N = 25 

(22)  S. Hod,

Evidence for a null entropy of extremal black holes,
Physical Review D 61, 084018(1-4) (2000).

I.F=4.37 ; R=7/29
N = 12 

(23)  S. Hod,

Black-hole radiation, the fundamental area unit, and the spectrum of particle species,
Physical Review D 61, 124016(1-3) (2000).

I.F=4.37 ; R=7/29
N = 9 

(24)  S. Hod,

Wave tails in nontrivial backgrounds,
Classical and Quantum Gravity 18, 1311-1314 (2001).

I.F=3.28 ; R=13/78
N = 26 

(25)  S. Hod,

Discrete black-hole radiation and the information loss paradox,
Physics Letters A 299, 144-149 (2002).

I.F=1.86 ; R=39/78
N = 22 

(26)  S. Hod and E. Nakar,

Self-segregation versus clustering in the evolutionary minority game,
Physical Review Letters 88, 238702(1-4) (2002).

I.F=8.84 ; R=6/78
N = 85 

(27)  S. Hod,

Wave tails in time-dependent backgrounds,
Physical Review D 66, 024001(1-4) (2002).

I.F=4.37 ; R=7/29
N = 27 

(28)  S. Hod,

Cosmic censorship, area theorem, and self-energy of particles,
Physical Review D 66, 024016(1-4) (2002).

I.F=4.37 ; R=7/29
N = 29 

(29)  E. Nakar and S. Hod,

Temporal oscillations and phase transitions in the evolutionary minority game, Physical Review E 67, 016109(1-5) (2003).

I.F=2.27 ; R=6/55
N = 22

(30)  S. Hod,

Time-dependent random walks and the theory of complex adaptive systems, Physical Review Letters 90, 128701(1-4) (2003).

I.F=8.84 ; R=6/78
N = 23 

(31)  S. Hod,

Kerr black-hole quasinormal frequencies,
Physical Review D 67, Rapid Communication, 081501(1-3) (2003).

I.F=4.37 ; R=7/29
N = 53 

(32)  S. Hod and E. Nakar,

Strategy updating rules and strategy distributions in dynamical multiagent systems,
Physical Review E 68, 026115(1-4) (2003).

I.F=2.27 ; R=6/55
N = 14 

(33)  S. Hod and E. Nakar,

Reply to comment on Self-Segregation versus Clustering in the Evolution Minority Game,
Physical Review Letters 91, 189802(1) (2003).

I.F=8.84 ; R=6/78
N = 2

(34)  S. Hod and U. Keshet,

Phase transition in random walks with long-range correlations,
Physical Review E 70, Rapid Communication, 015104(1-4) (2004).

I.F=2.27 ; R=6/55
N = 39 

(35)  S. Hod and E. Nakar,

Evolutionary minority game: the roles of response time and mutation threshold,
Physical Review E 69, 066122(1-4) (2004).

I.F=2.27 ; R=6/55
N = 4 

(36)  E. Nakar and S. Hod,

Survival probabilities in time-dependent random walks,
Physical Review E 70, 016116(1-4) (2004).

I.F=2.27 ; R=6/55
N = 9

(37)  S. Hod,

High-order corrections to the entropy and area of quantum black holes, Classical and Quantum Gravity, Letter to the Editor, volume 21, 97-100 (2004).

I.F=3.28 ; R=13/78
N = 52 

(38)  S. Hod and U. Keshet,

Intermediate asymptotics of the Kerr quasinormal spectrum,
Classical and Quantum Gravity, Letter to the Editor, volume 22, 71-74 (2005).

I.F=3.28 ; R=13/78
N = 22 

(39)  U. Keshet and S. Hod,

Survival probabilities of history-dependent random walks,
Physical Review E 72, 046144(1-3) (2005).

I.F=2.27 ; R=6/55
N = 11

(40)  S. Hod and U. Kehset,

Selection rules for black-hole quantum transitions,
Physical Review D 73, 024003(1-4) (2006).

I.F=4.37 ; R=7/29
N = 6 

(41)  S. Hod,

Quasinormal spectrum and quantization of charged black holes,
Classical and Quantum Gravity, Letter to the Editor, volume 23, 23-28 (2006).

I.F=3.28 ; R=13/78
N = 42 

(42)  S. Hod,

Universal bound on dynamical relaxation times and black-hole quasinormal ringing,
Physical Review D 75, 064013(1-5) (2007).

I.F=4.37 ; R=7/29
N = 70 

(43)  U. Keshet and S. Hod,

Analytic study of rotating black-hole quasinormal modes,
Physical Review D 76, Rapid Communication, 061501(1-5) (2007).

I.F=4.37 ; R=7/29
N = 50 

(44)  S. Hod,

Near extreme black holes and the universal relaxation bound,
Classical and Quantum Gravity 24, 4235-4237 (2007).

I.F=3.28 ; R=13/78
N = 33 

(45)  S. Hod,

On the quantization of a multi-horizon black hole,
Classical and Quantum Gravity 24, 4871-4874 (2007).

I.F=3.28 ; R=13/78
N = 12

(46)  S. Hod,

Einstein-Yang-Mills solitons: the role of gravity,
Physics Letters B 657, 255 (2007).

I.F=4.16 ; R=4/20
N = 7 

(47)  S. Hod,

Bounds on the mass-to-radius ratio for non-compact field configurations, Classical and Quantum Gravity 24, 6019-6024 (2007).

I.F=3.28 ; R=13/78
N = 6 

(48)  S. Hod,

Black holes have a good temper(ature),
International Journal of Modern Physics D 17, 563-566 (2008).

[This essay received an Honorable Mention from the Gravity Research Foundation 2007].

I.F=2.00 ; R=33/66 

(49)  S. Hod,

Lifetime of unstable hairy black holes,
Physics Letters B 661, 175 (2008).

I.F=4.16 ; R=4/20
N = 17 

(50)  S. Hod,

Weak cosmic censorship: As strong as ever,
Physical Review Letters 100, 121101 (2008).

I.F=8.84 ; R=6/78
N = 74 

(51)  S. Hod,

Quasinormal resonances of near-extremal Kerr-Newman black holes,
Physics Letters B 666, 483 (2008).

I.F=4.16 ; R=4/20
N = 37 

(52)  S. Hod,

Return of the quantum cosmic censor,
Physics Letters B 668, 346 (2008).

I.F=4.16 ; R=4/20
N = 23  

(53)  S. Hod,

Slow relaxation of rapidly rotating black holes,
Physical Review D 78, 084035(1-5) (2008).

I.F=4.37 ; R=7/29
N = 69 

(54)  S. Hod,

Black-hole quasinormal resonances: Wave analysis versus a geometric-optics approximation,
Physical Review D 80, 064004(1-4) (2009).

I.F=4.37 ; R=7/29
N = 35 

(55)  S. Hod,

How pure is the tail of gravitational collapse?
Classical and Quantum Gravity 26, 028001 (2009).

I.F=3.28 ; R=13/78
N = 16 

(56)  S. Hod,

From thermodynamics to the bound on viscosity,
Nuclear Physics B 819, 177-182 (2009).

I.F=3.19 ; R=11/29
N = 1 

(57)  S. Hod,

Gravitation, thermodynamics, and the bound on viscosity,
General Relativity and Gravitation 41, 2295-2299 (2009).

[Also published in: International Journal of Modern Physics D 18, 2337-2341 (2009).]

[This essay is awarded 3rd Prize in the 2009 Essay Competition of the Gravity Research Foundation].

I.F=1.72; R=39/78
N = 5 

(58)  S. Hod and O. Hod,

Analytic treatment of the black-hole bomb,
Physical Review D 81, Rapid Communication, 061502(1-5) (2010).

I.F=4.37 ; R=7/29
N = 76 

(59)  S. Hod,

Relaxation dynamics of charged gravitational collapse,
Physics Letters A 374, 2901 (2010).

I.F=1.86 ; R=39/78
N = 25 

(60)  S. Hod,

Universal charge–mass relation: From black holes to atomic nuclei,
Physics Letters B 693, 339-342 (2010).

I.F=4.16 ; R=4/20
N = 11 

(61)  S. Hod,

Quantum buoyancy, generalized second law, and higher-dimensional entropy bounds,
Journal of High Energy Physics 1012, 033(1-10)(2010).

I.F=5.54 ; R=4/29
N = 4 

(62)  S. Hod,

Analytic treatment of the network synchronization problem with time delays, Physical Review Letters 105, 208701(1-4) (2010).

I.F=8.84 ; R=6/78
N = 23 

(63)  S. Hod,

Gravitation, thermodynamics, and the fine-structure constant,
International Journal of Modern Physics D 19, 2319-2323 (2010).

[This essay received an Honorable Mention from the Gravity Research Foundation 2010].

I.F=2.00 ; R=33/66 

(64)  S. Hod,

Higher-dimensional violations of the holographic entropy bound,
Physics Letters B 695, 294-297 (2011).

I.F=4.16 ; R=4/20
N = 6 

(65)  S. Hod,

Bulk emission by higher-dimensional black holes: almost perfect blackbody radiation,
Classical and Quantum Gravity 28, 105016(1-7) (2011).

I.F=3.28 ; R=13/78
N = 16

(66)  S. Hod,

Hyperentropic systems and the generalized second law of thermodynamics,
Physics Letters B 700, 75-78 (2011).

I.F=4.16 ; R=4/20
N = 5

(67)  S. Hod,

Quasinormal resonances of a massive scalar field in a near-extremal Kerr black hole spacetime,
Physical Review D 84, 044046(1-5) (2011).

I.F=4.37 ; R=7/29
N = 28 

(68)  S. Hod,

The fastest way to circle a black hole,
Physical Review D 84, 104024(1-5) (2011).

I.F=4.37 ; R=7/29
N = 13 

(69)  S. Hod,

Hairy black holes and null circular geodesics,
Physical Review D 84, 124030(1-5) (2011).

I.F=4.37 ; R=7/29
N = 26 

(70)  S. Hod,

Gravitation, holographic principle, and the number of spatial dimensions,
International Journal of Modern Physics D 20, 2781–2786 (2011).

[This essay received an Honorable Mention from the Gravity Research Foundation 2011].

I.F=2.00 ; R=33/66
N = 1

(71)  S. Hod,

On the instability regime of the rotating Kerr spacetime to massive scalar perturbations,
Physics Letters B 708, 320-323 (2012).

I.F=4.16 ; R=4/20
N = 49 

(72)  S. Hod,

Quasinormal resonances of a charged scalar field in a charged Reissner- Nordström black-hole spacetime: A WKB analysis,
Physics Letters B 710, 349-351 (2012).

I.F=4.16 ; R=4/20
N = 25

(73)  S. Hod,

Stability of the extremal Reissner-Nordström black hole to charged scalar perturbations,
Physics Letters B 713, 505-508(2012).

I.F=4.16 ; R=4/20
N = 53

(74)  S. Hod,

Resonance spectrum of near-extremal Kerr black holes in the eikonal limit,
Physics Letters B 715, 348-351 (2012).

I.F=4.16 ; R=4/20
N = 26 

(75)  S. Hod,

Asymptotic spectrum of the oblate spin-weighted spheroidal harmonics: A WKB analysis,
Physics Letters B 717, 462-464 (2012).

I.F=4.16 ; R=4/20
N = 16 

(76)  S. Hod,

Stationary scalar clouds around rotating black holes,
Physical Review D 86, 104026(1-5) (2012).

I.F=4.37 ; R=7/29
N = 82 

(77)  S. Hod,

Black holes have long hair,
International Journal of Modern Physics D 21, 1242003(1-5) (2012).

[This essay received an Honorable Mention from the Gravity Research Foundation 2012].

I.F=2.00 ; R=33/66
N = 1 

(78)  S. Hod,

No-bomb theorem for charged Reissner-Nordström black holes,
Physics Letters B 718, 1489-1492 (2013).

I.F=4.16 ; R=4/20
N = 45 

(79)  S. Hod,

Spherical null geodesics of rotating Kerr black holes,
Physics Letters B 718, 1552-1556 (2013).

I.F=4.16 ; R=4/20
N = 8

(80) S. Hod,

Analytic toy model for the innermost stable circular orbit shift,
Physical Review D 87, 024036(1-4) (2013).

I.F=4.37 ; R=7/29

N = 11

(81)  S. Hod,

Cosmic censorship: Formation of a shielding horizon around a fragile horizon,
Physical Review D 87, 024037(1-4) (2013).

I.F=4.37 ; R=7/29

N = 11

(82)  S. Hod,

Black-hole perturbation theory: The asymptotic spectrum of the prolate spin-weighted spheroidal harmonics,

Physical Review D 87, 064017 (1-4) (2013).

I.F=4.37 ; R=7/29

N = 14

(83)  S. Hod,

Stationary resonances of rapidly-rotating Kerr black holes,
The European Physical Journal C 73, 2378-2382 (2013).

I.F=4.84 ; R=5/29

N = 51

(84)  S. Hod,

Propagation and scattering of waves in inhomogeneous optical media,
Journal of Optics 15, 105702(1-4) (2013).

I.F=2.32 ; R=35/94

(85)  S. Hod,

Scattering by a long-range potential,

Journal of High Energy Physics 09, 056(1-10)(2013).

I.F=5.54 ; R=4/29

N = 4

(86)  S. Hod,

The gravitational two-body problem in the vicinity of the light ring: Insights from the black-hole-ring toy model,
Physics Letters B 726, 533-536 (2013).

I.F=4.16 ; R=4/20

N = 2

(87)  S. Hod,

Analytic treatment of the charged black-hole-mirror bomb in the highly explosive regime,
Physical Review D 88, 064055(1-6) (2013).

I.F=4.37 ; R=7/29

N = 52

(88)  S. Hod,

Marginally bound (critical) geodesics of rapidly rotating black holes,
Physical Review D 88, 087502(1-5) (2013).

I.F=4.37 ; R=7/29

N = 1

(89)  S. Hod,

Purely imaginary polar resonances of rapidly-rotating Kerr black holes,
Physical Review D 88, 084018(1-6) (2013).

I.F=4.37 ; R=7/29

N = 8

(90)  S. Hod,

Asymptotic late-time tails of massive spin-2 fields,
Classical and Quantum Gravity 30, 237002(1-8) (2013).

I.F=3.28 ; R=13/78

N = 8

(91)  S. Hod,

Upper bound on the radii of black-hole photonspheres,
Physics Letters B 727, 345-348 (2013).

I.F=4.16 ; R=4/20

N = 3

(92)  S. Hod,

Algebraically special resonances of the Kerr-black-hole-mirror bomb,
Physical Review D 88, 124007(1-7) (2013).

I.F=4.37 ; R=7/29

N = 19

(93)  S. Hod,

A simplified two-body problem in general relativity,
International Journal of Modern Physics D 22, 1342029(1-7) (2013).

[This essay received an Honorable Mention from the Gravity Research Foundation 2013].

I.F=2.00 ; R=33/66

N = 1

(94)  S. Hod,

Self-gravitating ring of matter in orbit around a black hole: The innermost stable circular orbit,
The European Physical Journal C 74, 2840(1-5) (2014).

I.F=4.84 ; R=5/29

N = 2

(95)  S. Hod,

Onset of superradiant instabilities in the hydrodynamic vortex model,
Physical Review D 90, 027501(1-5) (2014).

I.F=4.37 ; R=7/29

N = 6

(96)  S. Hod,

Kerr-Newman black holes with stationary charged scalar clouds,
Physical Review D 90, 024051(1-7) (2014).

I.F=4.37 ; R=7/29

N = 40

(97)  S. Hod,

Onset of superradiant instabilities in the composed Kerr-black-hole-mirror bomb,
Physics Letters B 736, 398-402 (2014).

I.F=4.16 ; R=4/20

N = 15

(98)  S. Hod,

Resonance spectra of caged black holes,
The European Physical Journal C 74, 3137(1-5) (2014).

I.F=4.84 ; R=5/29

N = 8

(99)  S. Hod,

The instability spectrum of weakly-magnetized SU(2) Reissner–Nordström black holes,

Physics Letters B 739, 157-161 (2014).

I.F=4.16 ; R=4/20

N = 3

(100)  S. Hod,

Rotating black holes can have short bristles,
Physics Letters B 739, 196-200 (2014).

I.F=4.16 ; R=4/20

N = 37

(101)  S. Hod,

Self-gravitating field configurations: The role of the energy-momentum trace,Physics Letters B 739, 383-386 (2014).

I.F=4.16 ; R=4/20

N = 4

(102)  S. Hod,

Stability of highly-charged Reissner–Nordström black holes to charged scalar perturbations, Physical Review D 91, 044047(1-7) (2015).

I.F=4.37 ; R=7/29

N = 23

(103)  S. Hod,

Do all D-dimensional Schwarzschild black holes behave as one-dimensional entropy emitters?
Physics Letters B 746, 22-24 (2015).

I.F=4.16 ; R=4/20

N = 7

(104)  S. Hod,

Numerical evidence for universality in the excited instability spectrum of magnetically charged Reissner-Nordström black holes,

The European Physical Journal C 75, 180(1-3) (2015).

I.F=4.84 ; R=5/29

N = 1

(105)  S. Hod,

Eigenvalue spectrum of the spheroidal harmonics: A uniform asymptotic analysis,
Physics Letters B 746, 365-367 (2015).

I.F=4.16 ; R=4/20

N = 8

(106)  S. Hod,

Universality in the relaxation dynamics of the composed black-hole-charged-massive-scalar-field system: The role of quantum Schwinger discharge,
Physics Letters B 747, 339-344 (2015).

I.F=4.16 ; R=4/20

N = 7

(107)  S. Hod,

Quantum-gravity fluctuations and the black-hole temperature,
The European Physical Journal C (Letter) 75, 233(1-3) (2015).

[This essay received an Honorable Mention from the Gravity Research Foundation 2014].

I.F=4.84 ; R=5/29

N = 1

(108)  S. Hod,

Universality of the quasinormal spectrum of near-extremal Kerr-Newman black holes,
The European Physical Journal C (Letter) 75, 272(1-3) (2015).

I.F=4.84 ; R=5/29

N = 4

(109)  S. Hod,

The Hawking evaporation process of rapidly-rotating black holes: An almost continuous cascade of gravitons,
The European Physical Journal C 75, 329(C1-C3) (2015).

I.F=4.84 ; R=5/29

N = 10

(110)  S. Hod,

The large-mass limit of cloudy black holes,
Classical and Quantum Gravity (invited Focus paper) 32, 134002(1-16) (2015).

I.F=3.28 ; R=13/78

N = 23 

(111)  S. Hod,

The quantum emission spectra of rapidly-rotating Kerr black holes: Discrete or continuous?
Physics Letters B 749, 115-118 (2015).

I.F=4.16 ; R=4/20

N = 1

(112)  S. Hod,

Quasi-bound states of massive scalar fields in the Kerr black-hole spacetime: Beyond the hydrogenic approximation,
Physics Letters B 749, 167-171 (2015).

I.F=4.16 ; R=4/20

N = 10

(113)  S. Hod,

Ten shades of black,
International Journal of Modern Physics D 24, 1544007(1-5) (2015).

[This essay received an Honorable Mention from the Gravity Research Foundation 2015].

I.F=2.00 ; R=33/66

N = 1 

(114)  S. Hod,

Extremal Kerr-Newman black holes with extremely short charged scalar hair,
Physics Letters B 751, 177-183 (2015).

I.F=4.16 ; R=4/20

N = 12

(115)  S. Hod,

On the branching of the quasinormal resonances of near-extremal Kerr black holes,

The European Physical Journal C 75, 520(1-3) (2015).

I.F=4.84 ; R=5/29

N = 3 

(116)  S. Hod,

Bekenstein's generalized second law of thermodynamics: The role of the hoop conjecture,
Physics Letters B 751, 241-245 (2015).

I.F=4.16 ; R=4/20

N = 4

(117)  S. Hod,

Dragging of inertial frames in the composed black-hole-ring system,

The European Physical Journal C 75, 541(1-4) (2015).

I.F=4.84 ; R=5/29

(118)  S. Hod,

Numerical evidence for universality in the relaxation dynamics of near-extremal Kerr-Newman black holes,

The European Physical Journal C 75, 611(1-3) (2015).

I.F=4.84 ; R=5/29

(119)  S. Hod,

A note on black-hole physics, cosmic censorship, and the charge-mass relation of atomic nuclei,

Classical and Quantum Gravity 33, 037001(1-5) (2016).

I.F=3.28 ; R=13/78

(120)  S. Hod,

The charged black-hole bomb: A lower bound on the charge-to-mass ratio of the explosive scalar field,
Physics Letters B 755, 177-182 (2016).

I.F=4.16 ; R=4/20

N = 9

(121)  S. Hod,

The Hawking cascades of gravitons from higher-dimensional Schwarzschild black holes,
Physics Letters B 756, 133-136 (2016).

I.F=4.16 ; R=4/20

N = 3

(122)  S. Hod,

Hawking radiation and the Stefan-Boltzmann law: The effective radius of the black-hole quantum atmosphere,
Physics Letters B 757, 121-124 (2016).

I.F=4.16 ; R=4/20

N = 3

(123)  S. Hod,

A no-short scalar hair theorem for rotating Kerr black holes,
Classical and Quantum Gravity (invited Focus paper) 33, 114001 (2016).

I.F=3.28 ; R=13/78

N = 12

(124)  S. Hod,

Entropy emission properties of near-extremal Reissner-Nordström black holes,
Physical Review D 93, 104027(1-4) (2016).

I.F=4.37 ; R=7/29

N = 2

(125)  S. Hod,

The superradiant instability regime of the spinning Kerr black hole,

Physics Letters B 758, 181-185 (2016).

I.F=4.16 ; R=4/20

N = 11

(126)  S. Hod,

A lower bound on the Bekenstein-Hawking temperature of black holes,
Physics Letters B 759, 541-545 (2016).

I.F=4.16 ; R=4/20

(127)  S. Hod,

Upper bound on the center-of-mass energy of the collisional Penrose process,

Physics Letters B 759, 593-595 (2016).

I.F=4.16 ; R=4/20

(128)  S. Hod,

Analytic treatment of the system of a Kerr-Newman black hole and a charged massive scalar field,
Physical Review D 94, 044036(1-10) (2016).

I.F=4.37 ; R=7/29

N = 3

(129)  S. Hod,

Slowly decaying resonances of charged massive scalar fields in the Reissner-Nordström black-hole spacetime,
Physics Letters B 761, 53-57 (2016).

I.F=4.16 ; R=4/20

(130)  S. Hod,

A mystery of black-hole gravitational resonances,
Journal of Cosmology and Astroparticle Physics 08, 066(1-7) (2016).

I.F=5.13 ; R=6/29

(131)  S. Hod,

The spinning Kerr-black-hole-mirror bomb: A lower bound on the radius of the reflecting mirror,
Physics Letters B 761, 326-332 (2016).

I.F=4.16 ; R=4/20

N = 2 

(132)  S. Hod,

Charged massive scalar field configurations supported by a spherically symmetric charged reflecting shell,
Physics Letters B 763, 275-279 (2016).

I.F=4.16 ; R=4/20

N = 2

(133)  S. Hod,

No-scalar-hair theorem for spherically symmetric reflecting stars,
Physical Review D 94, 104073(1-3) (2016).

I.F=4.37 ; R=7/29

N = 2

(134)  S. Hod,

Natural broadening in the quantum emission spectra of higher-dimensional Schwarzschild black holes,
Physical Review D 95, 024012(1-7) (2017).

I.F=4.37 ; R=7/29

(135)  S. Hod,

Spinning Kerr black holes with stationary massive scalar clouds: The large-coupling regime,
Journal of High Energy Physics 01, 030(1-16)(2017).

I.F=5.54 ; R=4/29

N = 1 

(136)  S. Hod,

Marginally bound resonances of charged massive scalar fields in the background of a charged reflecting shell,

Physics Letters B 768, 97-102 (2017).

I.F=4.16 ; R=4/20 

(137)  S. Hod,

Analytic treatment of the excited instability spectra of the magnetically charged SU(2) Reissner-Nordström black holes,
Journal of High Energy Physics 03, 072(1-11)(2017).

I.F=5.54 ; R=4/29

(138)  S. Hod,

Stationary bound-state scalar configurations supported by rapidly-spinning exotic compact objects,
Physics Letters B 770, 186-192 (2017).

I.F=4.16 ; R=4/2 

(139)  S. Hod,

Quasi-bound state resonances of charged massive scalar fields in the near extremal Reissner-Nordström black-hole spacetime,
The European Physical Journal C 77, 351(1-6) (2017).

I.F=4.84 ; R=5/29 

(140)  S. Hod,

A proof of the weak gravity conjecture,
International Journal of Modern Physics D 26, 1742004(1-6) (2017).

[This essay is awarded 4th Prize in the 2017 Essay Competition of the Gravity Research Foundation].

I.F=2.00 ; R=33/66

(141)  S. Hod,

No nonminimally coupled massless scalar hair for spherically symmetric neutral black holes,
Physics Letters B 771, 521-523 (2017).

I.F=4.16 ; R=4/20

(142)  S. Hod,

Onset of superradiant instabilities in rotating spacetimes of exotic compact objects,
Journal of High Energy Physics 06, 132(1-17)(2017).

I.F=5.54 ; R=4/29

(143)  S. Hod,

No nonminimally coupled massless scalar hair for spherically symmetric neutral reflecting stars,
Physical Review D 96, 024019(1-5) (2017).

I.F=4.37 ; R=7/29

(144)  S. Hod,

Viscosity bound versus the universal relaxation bound,
Annals of Physics 385, 591-597 (2017).

I.F=2.27 ; R=20/78

(145)  S. Hod,

No hair for spherically symmetric neutral reflecting stars: nonminimally coupled massive scalar fields,
Physics Letters B 773, 208-212 (2017).

I.F=4.16 ; R=4/20 

(146)  S. Hod,

Marginally stable resonant modes of the polytropic hydrodynamic vortex,
Physics Letters B 774, 368-378 (2017).

I.F=4.16 ; R=4/20

(147)  S. Hod,

Ultra-spinning exotic compact objects supporting static massless scalar field configurations,
Physics Letters B 774, 582-590 (2017).

I.F=4.16 ; R=4/20 

(148)  S. Hod,

Highly excited bound-state resonances of short-range inverse power-law potentials,
The European Physical Journal C 77, 774(1-5) (2017).

I.F=4.84 ; R=5/29 

(149)  S. Hod,

No hair for spherically symmetric neutral black holes: nonminimally coupled massive scalar fields,
Physical Review D 96, 124037(1-6) (2017).

I.F=4.37 ; R=7/29

(150)  S. Hod,

Stationary bound-state massive scalar field configurations supported by
spherically symmetric compact reflecting stars,
The European Physical Journal C 77, 899(1-9) (2017).

I.F=4.84 ; R=5/29

(151)  S. Hod,

On the number of light rings in curved spacetimes of ultra-compact objects,
Physics Letters B 776, 1-4 (2018).

I.F=4.16 ; R=4/20 

(152)  S. Hod,                                                                                              

No-go theorem for static boson stars,
Physics Letters B 778, 239-241 (2018).

I.F=4.16 ; R=4/20 

(153)  S. Hod,

Charged reflecting stars supporting charged massive scalar field configurations,
The European Physical Journal C 78, 173(1-7) (2018).

I.F=4.84 ; R=5/29 

(154)  S. Hod,                                                                                              

Quasinormal modes and strong cosmic censorship in near-extremal Kerr-Newman-de Sitter black-hole spacetimes,
Physics Letters B 780, 221-226 (2018).

I.F=4.16 ; R=4/20 

(155)  S. Hod,

Lower bound on the compactness of isotropic ultracompact objects,

Physical Review D 97, 084018(1-4) (2018).

I.F=4.37 ; R=7/29

(156)  S. Hod,

Analytic study of self-gravitating polytropic spheres with light rings,
The European Physical Journal C 78, 417(1-6) (2018).

I.F=4.84 ; R=5/29

(157)  S. Hod,

Holographic entropy bound in higher-dimensional spacetimes,
Physical Review D 97, 126012(1-4) (2018).

I.F=4.37 ; R=7/29 

(158)  S. Hod,

The Hawking paradox and the Bekenstein resolution in higher-dimensional spacetimes,
Nuclear Physics B 933, 299-305 (2018).

I.F=3.19 ; R=11/29

(159)  S. Hod,

Black-hole evaporation, cosmic censorship, and a quantum lower bound on the Bekenstein-Hawking temperature,
The European Physical Journal C (Letter) 78, 634(1-4) (2018).

I.F=4.84 ; R=5/29

(160)  S. Hod,

Lower bound on the radii of circular orbits in the extremal Kerr black-hole spacetime,
The European Physical Journal C 78, 725(1-3) (2018).

I.F=4.84 ; R=5/29

(161)  S. Hod,

Upper bound on the gravitational masses of stable spatially regular charged compact objects,
Physical Review D 98, 064014(1-4) (2018).

I.F=4.37 ; R=7/29

(162)  S. Hod,                                                                                              

The instability spectra of near-extremal Reissner-Nordström-de Sitter black holes,
Physics Letters B 786, 217-222 (2018).

I.F=4.16 ; R=4/20 

(163)  S. Hod,

Fermat's principle in black-hole spacetimes,
International Journal of Modern Physics D 27, 1847025(1-5) (2018).

[This essay received an Honorable Mention from the Gravity Research Foundation 2018].

I.F=2.00 ; R=33/66

(164)  S. Hod,

Energy spectrum of the long-range Lennard-Jones potential,
The European Physical Journal Plus 133, 489(1-6) (2018).

I.F=2.61 ; R=5/29

(165)  S. Hod,

A quantum bound on the thermodynamic description of gravity,
The European Physical Journal Plus 133, 501(1-3) (2018).

[This essay received an Honorable Mention from the Gravity Research Foundation 2016].

I.F=2.61 ; R=5/29 

(166)  S. Hod,

The Reissner-Nordström black hole with the fastest relaxation rate,
The European Physical Journal C 78, 935(1-5) (2018).

I.F=4.84 ; R=5/29 

(167)  S. Hod,

On the status of the hoop conjecture in charged curved spacetimes,
The European Physical Journal C 78, 1013(1-2) (2018).

I.F=4.84 ; R=5/29

(168)  S. Hod,

No-go theorem for spatially regular boson stars made of static nonminimally coupled massive scalar fields, The European Physical Journal C 79, 26(1-5) (2019).

I.F=4.84 ; R=5/29

(169)  S. Hod,

The gravitational two-body system: The role of the Thorne hoop conjecture,
The European Physical Journal Plus 134, 106(1-4) (2019).

I.F=2.61 ; R=5/29

(170)  S. Hod,

Strong cosmic censorship in charged black-hole spacetimes: As strong as ever
Nuclear Physics B 941, 636-645 (2019).

I.F=3.19 ; R=11/29

(171)  S. Hod,

Survival probabilities in the Sisyphus random walk model with absorbing traps,
Annals of Physics 406, 200-206 (2019).

I.F=2.27 ; R=20/78

(172)  S. Hod,

Upper bound on the energies of the emitted Hawking quanta,
Nuclear Physics B 942, 184-187 (2019).

I.F=3.19 ; R=11/29

(173)  S. Hod,

Spontaneous scalarization of Gauss-Bonnet black holes: Analytic treatment in the linearized regime,
Physical Review D 100, 064039(1-5) (2019).

I.F=4.37 ; R=7/29

(174)  S. Hod,

Hawking radiation may violate the Penrose cosmic censorship conjecture,
International Journal of Modern Physics D 28, 1944023(1-5) (2019).
[This essay received an Honorable Mention from the Gravity Research Foundation 2019].

I.F=2.00 ; R=33/66

(175)  S. Hod,

Strong cosmic censorship and the universal relaxation bound,
Nuclear Physics B 948, 114772(1-5) (2019).

I.F=3.19 ; R=11/29