Download Unparticle Physics - Theoretical Particle Physics Group of Yonsei Univ.

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

Document related concepts
no text concepts found
Transcript
Jong-Phil Lee
Yonsei Univ.
Based on JPL,
1009.1730; 0911.5382;0901.1020
16 Nov 2010, Yonsei Univ.
•Unparticles Brief
•Flat higher dim’l deconstruction
•Ungravity
•Fractional eXtra Dimension (FXD)
•Unparticle and Bs-anti Bs
•Conclusions
2
3
H. Georgi, PRL98; PLB650
Weakly interacting
SM Sector
Particles with
definite masses
Scale Inv.
Sector
NO particles
With definite
nonzero masses
Unparticle!
4
energy
Banks-Zaks(BZ) Theory
BZ
Massless fermionic gauge theory
With an infrared-stable fixed point.
MU
Dimensional
transmutation
LU
matching
Scale inv.
emerges.
MW ; EWSB
SM
; scale inv. breaking
5
Production Cross Section
Phase Space
6
Two-point function
Spectral density function
Fixed by scale inv.
Normalization factor
Unparticles with dU look like a
Non-integral number of
massless particles.
7
Cheung, Keung, Yuan, PRD76
Grinstein, Intriligator, Rothstein, PLB662
Scalar Unparticle Propagator
Vector Unparticle Propagator
8
Fox, Rajaraman, Shirman,, PRD76
scale invariance breaking
“Good Correspondence”
m0 : rU reduces to the usual Unparticle spectral function
dU1 : the corresponding propagator is a free particle propagator of mass m.
9
Interaction Lagrangian
Phase spaces
10
11
12
Stephanov, PRD76
Philosophy
Unparticles
lim S
D 0
continuous sum for unparticles
particles
with mass
gap D
13
Assume that the scale invariance is slightly broken;
continuous l
discrete l
Spectral function
Propagator
Matching in the limit D-->0
In general,
14
Massless field Lagrangian in 4+d dim
Kk mode expansion
15
JPL, PRD 79
Massive Lagrangian
Massive propagator
16
17
18
Goldberg & Nath, PRL 100
Tensor unparticle interaction
Newtonian gravity modified
19
Basic Idea
Unparticle
lim S
D 0
2dU-1
particles
with
mass
gap D
KK sum
over
Extra dim.
N+1
20
Ungravity Lagrangian
Spectral Function
Two-Point Function
21
Ungravity Propagator
Tensor Structure
Grinstein, Intriligator, Rothstein, PLB662
22
JPL, 0911.5382
Tensor Operator Decomposed
(polarization tensor)
Matching
Tensor Structure for Deconstructed states
for massive graviton
Deconstructed Ungravity
23
Arkani-Hamed et al., PRL 84
AdS(4+N) metric
Reparametrizaion
KK Decomposition
for which
24
Newtonian Potential
25
26
JPL, 0911.5382
(4+N)-dim’l Gravity
Proposition
27
Intermediate States Have Vanishing Mass?
For large L>>r
Does Fn Satisfy the Matching Condition?
Newtonian Potential Modification
28
29
Mureika, PLB660
Newtonian gravity modified
Schwarzschild metric
Geometric BH cross section
Schwarzschild radius
~10-5 fm
for typical parameters
30
Mureika, Spallucci
arXiv:1006.4556
Vector Unparticle Interaction
(Bm
: baryon current)
“repulsive contribution”
31
Horizons
Inner & outer
Horizons exist.
As M goes down, the two horizons approach to each other.
Extremal Condition
(1)M>Me : Massive object. Two-horizon BH.
(2)M=Me : Critical object. Single horizon. Extremal BH.
(3)M<Me : “naked-singularity”
32
Weak coupling phase
Strong coupling phase
cf) Hawking temp. for
Schwarzschild BH in D-dim
33
Ask,
EPJC(2009)60
Invariant mass spectrum of U
Dense KK tower of large XD
34
35
36
Scalar and vector unparticle couplings
s- and t-channel contribution at tree level
37
38
39
In the literature, people usually put
dS =dV
fS is suppressed
by a factor of
But this is NOT true.
Unitarity constraint
fV is suppressed by
40
positive definite
suppressed
Unparticles cannot explain the positive
cf)
fsD
41
JPL, 1009.1730
42
degree
43
•Unparticles of spin 2 produce ungravity.
•Ungravity modifies the Newtonian gravitational potential.
•Ungravity physics is realized in AdS(4+N)-dim’l gravity.
•Ungravity can be understood in the context of
fractional extra dimensions.
•Scalar unparticles contribute predominantly to the
Bs-(anti Bs) mixing, and can naturally explain its negative phase.
•The LHC might see evidences of unparticles.
44
Related documents