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New neutrino phenomena
Danny Marfatia
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New matter interactions
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Possible tension in standard oscillation picture
Discrepancy in mass-squared difference driven by Super-K’sday-night asymmetry measurement:
1710.09360 1704.04711
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Nonstandard interactions in matter
✏f↵� ⌘ ✏fL↵� + ✏fR↵�
Vector interaction relevant for propagation:
=) ✏↵�ei�↵� ⌘
X
f
✏f↵�Nf
Ne
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1805.04530
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Iso-day-night asymmetry contours
1704.04711
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1704.04711
Hyper-K and JUNO can detect NSI
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Future LBL experiments
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Appearance channels NH
Liao
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L=1300 km, E=3 GeV
1601.00927
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One NSI parameter
1403.0744, 1604.05772
1612.01443
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Mass hierarchy resolved atDUNE and T2HKK
Hierarchy not resolvedWrong determination of the CP phase possible 1612.01443
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3 NSI parameters
1612.01443
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Constraint on much weaker at T2HK and T2HKK
1612.01443
✏eµ
Degeneracy between NSI parameters unbroken at T2HK and T2HKK because of the lower energy J-PARC beam
✏eµ = tan ✓23✏e⌧
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MH known
MH unknown
IH and
T2HKK better than DUNE for CP; is the only expt. that can measure the CP phase if MH is unknown
CP sensitivity
1612.01443
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Sterile neutrino NSI
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LSND
Baseline: 30 m Maximum energy: 53 MeV
⌫µ ! ⌫e
L/E ⇠ 1 km/GeV =) �m2 ⇠ 1 eV2
mass
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MiniBooNE
⌫µ ! ⌫e
Baseline: 500 m Average energy: 800 MeV
⌫µ ! ⌫e
LSND+MiniBooNE anomaly has 6.1 sigma significance
L/E ⇠ 1 km/GeV =) �m2 ⇠ 1 eV2
Oscillation amplitude from global analysis:
sin2 2✓14 sin2 ✓24 ⇠ 0.04 sin2 ✓24
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IceCube
crust
mantle
core
!
Focus on (anti)muon neutrino survival probabilities
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Resonant 3+1 atmospheric neutrino oscillations
Oscillation maximum in vacuum:
Resonance condition in earth matter:
�m2
eV2
L
103 km
TeV
E⇠ 1
Resonance occurs in antineutrino channel
�m241 cos 2✓24 ' ⌥ 1 eV
2 E
5 TeV
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Model independent bounds from neutrino oscillation data allow large diagonal NSI parameters with O(1) differences between them
COHERENT bounds obtained using contact approx don’t apply for mediators lighter than 50 MeV
NSI in matter to the rescue?
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3+1 oscillations with NSI
H =�m2
41
2E⌫
2
4
0
@0 s24s34 s24c34
s24s34 s234 s34c34s24c34 s34c34 c234
1
A+ A
0
@✏µµ ✏µ⌧ 0✏µ⌧ ✏⌧⌧ 00 0
1
A
3
5+O(s214, s224) ,
A =2p2GFNeE⌫
�m241
=Nn
2Ne' 0.5
Special case: If the submatrix of NSI parameters is proportional to the identity, the NSI interaction can be attributed entirely to the sterile neutrino
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Bottomline: Adapted from 1602.08766, 1703.00860,1710.06488, 1803.10661
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LIV/CPTV interactions
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Cosmic neutrinos at IceCube
60 events with dep. energy > 60 TeV
3 cascade events between 1-2 PeV
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Upgoing muon neutrino spectrum (E > 120 TeV) harder than HESE spectrum
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One Glashow resonance event observed
is unique because of resonant scattering at ⌫e
⌫ee� ! W� ! anything
E⌫ =M2
W
2me= 6.3 PeV
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1711.09266 update
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Multicomponent flux?
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Lorentz and CPT violation?
Suppose LIV and CPTV only occur in neutrino sector
Only consider effects that change the kinematics of particle interactions
Postulate that CPTV arises from Planck-suppressed terms in the Lagrangian
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Modified dispersion relation
!
!
Assume all neutrino flavors have same LIV parameter to be consistent with neutrino oscillation data
Dispersion relation for antineutrinos:
Our choice neutrinos are superluminal and antineutrinos are subluminal
� ! ��
� > 0 =)
E2 � p2 = m2 + 2�E2
� = E
MPl
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Dominant energy loss processes for superluminal neutrinos are vacuum pair emission (VPE) and neutrino splitting
!
!
Event pile-up caused by neutrino splitting is larger than for VPE because splitting produces 2 additional lower energy neutrinos
� / 3G2FE
8
M3Pl
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imposes an upper bound on the energy of superluminal neutrinos:⇡+ ! µ+⌫µ
E3 (m⇡ �mµ)2MPl
2
VPE occurs above an energy threshold given by
E3th =
2m2eMPl
Effect on neutrino sources?
For a given VPE threshold energy, the upper bound on the superluminal neutrino energy is
E < 10.3Eth
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1711.09266 update
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Superluminal fraction compatible with contamination⇡�
1711.09266update
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1711.09266 update
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Interactions with dark matter
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direct reflected
ANITA
Has ANITA seen two 600 PeV tau events?
0.6 EeV events arrived at ~ 30 degs. above the horizon
Polarity and plane of polarization consistent with air showers seen directly w/o the reflection phase inversion
Could be tau lepton initiated air showers
But, propagating chord distance is 10-12 interaction lengths at 0.6 EeV
1603.05218/1803.05088
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ANITA (solid angle integrated) exposure is 60 times smaller than Auger/IceCube exposure
Problems solved if source is inside the Earth
Heavy right-handed neutrino (dark matter) decays to Higgs and light neutrino
Lifetime > 10^(29.5) sPoS(ICRC2017)935
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3
+
l�l+
R�
✓n
r
r
ANITA
FIG. 1. The particle’s trajectory to ANITA at a given nadirangle.
and � = 1.7⇥ 107/(�/pb) km w.e. is the mean-free-path,with � the neutrino-nucleon charged-current cross sec-tion. Here, the e↵ective area A
e↵
= A0
E(✓n) defines theexperimental e�ciency E that includes the target areadependence on ✓n but not the e�l/� suppression whichis given explicitly in the integrand. Note that E(✓n)vanishes for ✓n < 35�, peaks at about 75�, and van-ishes above 85� [21]. In Eq. (1) we have neglected en-ergy losses due to neutral current interactions and e↵ectsfrom ⌫⌧ regeneration [22]. For 200 . E⌫/PeV . 1000,these e↵ects are not important. For a 100 PeV neu-trino, � ⇠ 4.43 ⇥ 103 pb, the interaction length in rockis � ⇠ 103 km, and the average range of the outgoing ⌧lepton is a few km [23, 24]. Integrating over the durationof an experiment yields the event number as opposed tothe event rate.
The fact that for fixed r, we have two special values ofl, i.e., l±, can be seen from Fig. 1. Of course, if r is toosmall, then the trajectory at fixed ✓n does not intersectthe circle at all; this is the origin of the lower limit in theintegration over dr.
The exponential suppression factor in Eq. (1) can be
written as
e�(l+/�) + e�(l�/�) = 2 exp
✓�R� cos ✓n
�
◆
⇥ cosh
0
@
qr2 � R2
� sin2 ✓n
�
1
A . (2)
The competition between the falling (with increasing ✓n)e�R� cos ✓n/� term and the rising E(✓n) term in Eq. (1)determines the most probable angle of observation. Thetwo unusual ANITA events occur at 27.4� and 35� abovethe horizon, so we may set the peak of the distributionat ⇠ 30� above the horizon, corresponding to a nadirangle of ✓n ⇠ 60�. So, taking the view that the eventdistribution is maximized at ✓n = 60� by a combinationof ANITA’s e�ciency and the dark matter distributionin the Earth, we require
d2 Rate
d | cos ✓n|2����cos ✓n=
12
= 0 . (3)
This result becomes a constraint on the model parame-ters in Eq. (1).
We end with three observations: (i) It is generallyassumed that after the dark matter particles becomegravitationally bound, they quickly lose their momentumand sink to the core of Earth [25]. We have proposedthat ANITA data may be indicating that the darkmatter distribution in the Earth may be more compli-cated. This may result from a recent encounter of theEarth with a dark disk.2 (ii) Quasi-stable right-handedneutrinos will also accumulate in the core of the Sunand the Moon, and on decay will produce a flux ofhigh-energy neutrinos. However, the neutrinos will notescape the Sun or the Moon, and the latter does nothave an atmosphere in which the ⌧ leptons can produceshowers, so consequently the flux from these sources isunobservable. (iii) Data from the fourth ANITA flightis currently being analyzed and may lead to furtherenlightenment. The second generation of the ExtremeUniverse Space Observatory (EUSO) instrument, to beflown aboard a super-pressure balloon (SPB) in 2022will monitor the night sky of the Southern hemispherefor upgoing showers emerging at large angles below thehorizon [28]. EUSO-SPB2 will provide an importanttest both of the unusual ANITA events and of the ideasdiscussed in this Letter.
This work has been supported by the U.S. NationalScience Foundation (NSF Grant PHY-1620661), the De-partment of Energy (DoE Grants DE-SC0017647, DE-SC0010504, and DE-SC-0011981), and the NationalAeronautics and Space Administration (NASA Grant80NSSC18K0464). V.B. thanks KITP at UCSB for itshospitality while this work was in progress.
Event distribution maximized at 60 deg nadir angle by combination of ANITA’s efficiency and DM distribution in Earth
Atypical DM distribution required
CPT symmetric universe has 480 PeV right-handed neutrino as DM candidate 1803.11554
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Summary
At LBL expts, degeneracies between SM and NSI parameters, and between NSI parameters strongly affect sensitivities
If is O(1), impossible to determine hierarchy at oscillation experiments
DUNE has best sensitivity to NSI
T2HKK has best sensitivity to CP phase in the presence of NSI
✏ee � ✏µµ
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LSND/MiniBooNE is consistent with IceCube in a (3+1)+NSI model if the NSI parameters only obey model-independent bounds; NSI can be attributed entirely to sterile neutrino
Can survive MINOS/MINOS+ bound only if systematics underestimated a la 1803.11488
Features in IceCube’s cosmic neutrino spectrum may be hint of new physics
If ANITA’s events are initiated by neutrinos, radical explanations may be needed