Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf ·...
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Ketan Patel 1
Decoding Neutrino Masses and Mixing From Symmetry to Anarchy
Ketan Patel (IISER Mohali)
Nu HoRIzons VI, HRI, AllahabadMarch 17-19, 2016
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Current status of neutrino masses and mixing
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 2
[M. C. Gonzalez-Garcia et al. (2014)]
[F. Capozzi et al. (2014)]
[D. Forero et al. (2014)]
[…see S. Goswami’s Talk]
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Current status of neutrino masses and mixing
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 3
• Neutrinos have tiny mass.
• Can have normal or inverted ordering, can be quasidegenerate in masses.
• The mass hierarchy is weaker.
• Two of the three mixing angles are large.
• One is small but not zero.
• Weak indication of maximal Dirac CP phase.
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The SM Flavour Puzzle
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 4
Neutrinos with respect to charged fermions…
|UPMNS| ⇡
0
@0.8 0.5 0.20.5 0.6 0.60.3 0.6 0.7
1
A
|VCKM| ⇡
0
@1 � �3
� 1 �2
�3 �2 1
1
A
� ⇡ 0.23
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Approaches to the Flavour Puzzle
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 5
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Approaches to the Flavour Puzzle
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 5
Largely responsible for smallness of neutrino masses
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Approaches to the Flavour Puzzle
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 5
Largely responsible for smallness of neutrino massesMainly responsible for
flavour structure
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Approaches to the Flavour Puzzle
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 5
Largely responsible for smallness of neutrino massesMainly responsible for
flavour structure
Two well-known approaches:
Symmetry
Y are deduced from first principle
Symmetry and/or dynamical principle determines Yukawas in a fundamental
theory
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Approaches to the Flavour Puzzle
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 5
Largely responsible for smallness of neutrino massesMainly responsible for
flavour structure
Two well-known approaches:
Symmetry
Y are deduced from first principle
Symmetry and/or dynamical principle determines Yukawas in a fundamental
theory
Anarchy
Y are due to chance
Observed Yukawas are environmental selection and cannot be fully predicted
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Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 6
Symmetry Approaches
Exploring Residual symmetries of Leptons through Neutrino data
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Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 7
Tracing the symmetry of Lagrangian
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Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 7
Tracing the symmetry of Lagrangian
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Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 7
Tracing the symmetry of Lagrangian
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Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 7
Tracing the symmetry of Lagrangian
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Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 8
Tracing the symmetry of Lagrangian
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Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 8
Tracing the symmetry of Lagrangian
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Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 8
Tracing the symmetry of Lagrangian
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Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 8
Tracing the symmetry of Lagrangian
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Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 9
Tracing the symmetry of Lagrangian
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Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 9
Tracing the symmetry of Lagrangian
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Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 9
Tracing the symmetry of Lagrangian
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Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 9
Tracing the symmetry of Lagrangian
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Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 10
[…see S. Pramanick’s Talk]
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Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 10
[…see S. Pramanick’s Talk]
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Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 11
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Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 12
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Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 12
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Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 12
• Generalisation of symmetries predicting [A.S.Joshipura, KMP (2015)]
can arise from the DSG of O(3)
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Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 13
Discrete Symmetries Beyond the Neutrino Mixing Angles Predictions
• Let S is the symmetry of Majorana neutrino mass matrix
at least one of the neutrinos is massless if Symmetry is DSG of U(3) and not SU(3)
[A.S.Joshipura, KMP (2013)]
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Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 13
Discrete Symmetries Beyond the Neutrino Mixing Angles Predictions
• Let S is the symmetry of Majorana neutrino mass matrix
at least one of the neutrinos is massless if Symmetry is DSG of U(3) and not SU(3)
[A.S.Joshipura, KMP (2013)]
• Scan over various DSG of U(3) is performed and mixing pattern is analysed [A.S.Joshipura, KMP (2014)]
![Page 31: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/31.jpg)
Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 13
Discrete Symmetries Beyond the Neutrino Mixing Angles Predictions
• Let S is the symmetry of Majorana neutrino mass matrix
at least one of the neutrinos is massless if Symmetry is DSG of U(3) and not SU(3)
[A.S.Joshipura, KMP (2013)]
• Scan over various DSG of U(3) is performed and mixing pattern is analysed [A.S.Joshipura, KMP (2014)]
• Idea is extended for (at least two) degenerate neutrinos [A.S.Joshipura, KMP (2014), D.Hernandez, A.Smirnov (2014)]
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Symmetry behind neutrinos
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 13
Discrete Symmetries Beyond the Neutrino Mixing Angles Predictions
• Let S is the symmetry of Majorana neutrino mass matrix
at least one of the neutrinos is massless if Symmetry is DSG of U(3) and not SU(3)
[A.S.Joshipura, KMP (2013)]
• Scan over various DSG of U(3) is performed and mixing pattern is analysed [A.S.Joshipura, KMP (2014)]
• Idea is extended for (at least two) degenerate neutrinos [A.S.Joshipura, KMP (2014), D.Hernandez, A.Smirnov (2014)]
• Neutrino Anti-symmetry [A.S.Joshipura (2015)]
[… See N. Nath’s Talk]
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Lessons from symmetries
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 14
• No (simple) symmetry predicting the observed values of all three mixing angles.
• Perturbations of the order of Cabibbo angle are needed.
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Lessons from symmetries
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 14
• No (simple) symmetry predicting the observed values of all three mixing angles.
• Symmetries not predicting reactor angle but predicting maximal atmospheric angle and maximal Dirac CP violation are of current interests.
• Perturbations of the order of Cabibbo angle are needed.
![Page 35: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/35.jpg)
Lessons from symmetries
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 14
• No (simple) symmetry predicting the observed values of all three mixing angles.
• Symmetries not predicting reactor angle but predicting maximal atmospheric angle and maximal Dirac CP violation are of current interests.
• Perturbations of the order of Cabibbo angle are needed.
• New approaches based on mass dependent mixing patterns
![Page 36: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/36.jpg)
Lessons from symmetries
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 14
• No (simple) symmetry predicting the observed values of all three mixing angles.
• Symmetries not predicting reactor angle but predicting maximal atmospheric angle and maximal Dirac CP violation are of current interests.
• Perturbations of the order of Cabibbo angle are needed.
• New approaches based on mass dependent mixing patterns
• No clear and elegant picture of “Theory of Flavour” so far!
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Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 15
Anarchy approaches to Neutrino data
Structureless natural couplings of order unity
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Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 16
Empirical evidence of symmetry from a quark sector:
|VCKM| ⇡
0
@1 � �3
� 1 �2
�3 �2 1
1
Amu : mc : mt ⇡ �8 : �4 : 1
md : ms : mb ⇡ �5 : �3 : 1
![Page 39: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/39.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 16
Empirical evidence of symmetry from a quark sector:
|VCKM| ⇡
0
@1 � �3
� 1 �2
�3 �2 1
1
Amu : mc : mt ⇡ �8 : �4 : 1
md : ms : mb ⇡ �5 : �3 : 1
Can easily be produced using Froggatt-Nielsen symmetry [Froggatt and Nielsen (1979)]
![Page 40: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/40.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 16
Empirical evidence of symmetry from a quark sector:
|VCKM| ⇡
0
@1 � �3
� 1 �2
�3 �2 1
1
Amu : mc : mt ⇡ �8 : �4 : 1
md : ms : mb ⇡ �5 : �3 : 1
Can easily be produced using Froggatt-Nielsen symmetry [Froggatt and Nielsen (1979)]
![Page 41: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/41.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 16
Empirical evidence of symmetry from a quark sector:
|VCKM| ⇡
0
@1 � �3
� 1 �2
�3 �2 1
1
Amu : mc : mt ⇡ �8 : �4 : 1
md : ms : mb ⇡ �5 : �3 : 1
Can easily be produced using Froggatt-Nielsen symmetry [Froggatt and Nielsen (1979)]
![Page 42: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/42.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 16
Empirical evidence of symmetry from a quark sector:
|VCKM| ⇡
0
@1 � �3
� 1 �2
�3 �2 1
1
Amu : mc : mt ⇡ �8 : �4 : 1
md : ms : mb ⇡ �5 : �3 : 1
Can easily be produced using Froggatt-Nielsen symmetry [Froggatt and Nielsen (1979)]
Order unity numbers, No structure !!
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Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 17
Empirical evidence of symmetry from a quark sector:
|VCKM| ⇡
0
@1 � �3
� 1 �2
�3 �2 1
1
Amu : mc : mt ⇡ �8 : �4 : 1
md : ms : mb ⇡ �5 : �3 : 1
![Page 44: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/44.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 17
Empirical evidence of symmetry from a quark sector:
|VCKM| ⇡
0
@1 � �3
� 1 �2
�3 �2 1
1
Amu : mc : mt ⇡ �8 : �4 : 1
md : ms : mb ⇡ �5 : �3 : 1
Leads to observed form of CKM mixings
![Page 45: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/45.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 17
Empirical evidence of symmetry from a quark sector:
|VCKM| ⇡
0
@1 � �3
� 1 �2
�3 �2 1
1
Amu : mc : mt ⇡ �8 : �4 : 1
md : ms : mb ⇡ �5 : �3 : 1
Leads to observed form of CKM mixings
Leads to viable mass ratios in quark sector (with a moderate tuning in O(1) parameters)
![Page 46: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/46.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 18
Extension to the Lepton Sector
Hierarchy only in the charged lepton masses
Viable for both Dirac and Majorana neutrinos
![Page 47: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/47.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 18
Extension to the Lepton Sector
Hierarchy only in the charged lepton masses
Viable for both Dirac and Majorana neutrinos
An Extreme Possibility [Hall, Murayama, Weiner (1999); De Gouvea, Murayama (2012)]
![Page 48: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/48.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 18
Extension to the Lepton Sector
Hierarchy only in the charged lepton masses
Viable for both Dirac and Majorana neutrinos
An Extreme Possibility [Hall, Murayama, Weiner (1999); De Gouvea, Murayama (2012)]
supported by nonzero reactor angle and non-maximal atmospheric angle
Neutrino mass ratios and mixing angles are O(1) numbers
consistent with current data!
![Page 49: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/49.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 19
Other variants of Anarchy in Lepton sector[Buchmuller, Domcke, Schmitz (2011); Altarelli, Feruglio, Masina, Merlo (2012); Bergstrom, Meloni, Merlo (2014)]
![Page 50: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/50.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 19
Other variants of Anarchy in Lepton sector[Buchmuller, Domcke, Schmitz (2011); Altarelli, Feruglio, Masina, Merlo (2012); Bergstrom, Meloni, Merlo (2014)]
![Page 51: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/51.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 19
Other variants of Anarchy in Lepton sector[Buchmuller, Domcke, Schmitz (2011); Altarelli, Feruglio, Masina, Merlo (2012); Bergstrom, Meloni, Merlo (2014)]
Difficult to go beyond order of magnitude predictions!
![Page 52: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/52.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 20
Is symmetry necessary to support Anarchy?
![Page 53: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/53.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 20
Is symmetry necessary to support Anarchy?Flavour Hierarchies from Extra-dimensions
φ=0φ=+π
φ=−π Identify+φ with −φ
(i.e. x5 with −x5)
φ=0 φ=π
φ=0
x5=0
φ=π
x5=πR
Figure 10: Orbifolding the circle to an interval
interval as an “orbifold” of the circle. This is illustrated in Fig. 10, where thepoints on the two hemispheres of the circle are identified. Mathematically,we identify the points at φ or x5 with −φ or −x5. In this way the physicalinterval extends a length πR, half the circumference of our original circle.This identification is possible if we also assign a “parity” transformation toall the fields, which is respected by the dynamics (i.e. the action). The actionwe have considered above has such a parity, given by
P ( x5) = −x5 P (Aµ) = +Aµ P (A(0)5 ) = −A(0)
5
P (ΨL) = +ΨL P (ΨR) = −ΨR ,(5.1)
precisely when the 5D fermion mass vanishes, m = 0. We consider this casefor now.
Ex. Check that the action is invariant under this parity transformation.With such a parity transformation we continue to pretend to live on a
circle, but with all fields satisfying
Φ(xµ,−x5) = P (Φ)(xµ, x5) . (5.2)
That is, the degrees of freedom for x5 < 0 are merely a reflection of degreesof freedom for x5 > 0, they have no independent existence. Of course we alsorequire circular periodicity,
Φ(xµ, φ + 2π) = Φ(xµ, φ) . (5.3)
These conditions specify “orbifold boundary conditions” on the interval, de-rived from the the circle, which of course has no boundary.
17
xµ
φ = 0x5 = 0
φ = πx5 = πR
AM , Ψ
χL(x)
Figure 11: Orbifolded higher dimensional spacetime (with boundaries)
which live in the “bulk” of the 5D spacetime, there is a 4D Weyl fermion pre-cisely confined to one of the 4D boundaries of the 5D spacetime, say φ = π.It can couple to the gauge field evaluated at the boundary if it carries somenon-trivial representation, say triplet. This represents a second way in whichthe chirality problem can be solved, localization to a physical 4D subspaceor “3-brane” (a “p”-brane has p spatial dimensions plus time), in this casethe boundary of our 5D spacetime. The new fermion has action,
Sχ =
!d4x χ
Li(x)
"i∂µδ
ij + gA ijµ (x, φ = π)
#χ
Lj(x) . (5.12)
At low energies, E ≪ 1/R, this fermion will have identical gauge coupling asthe Ψ(0) triplet, but it will have no Yukawa coupling, thereby giving a cruderepresentation of a light fermion of the standard model.
Well, there are other tricks that one can add to get closer and closer tothe real world. Ref. [14] gives a nice account of many model-building issuesand further references. I want to move in a new direction.
20
[N. Arkani-Hamed, M. Schmaltz (2000), D. Kaplan,T. Tait (2001)]
![Page 54: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/54.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 20
Is symmetry necessary to support Anarchy?
L = f(x5) �L(xµ) + f
1(x5) �1L(xµ) + ...
Flavour Hierarchies from Extra-dimensions
φ=0φ=+π
φ=−π Identify+φ with −φ
(i.e. x5 with −x5)
φ=0 φ=π
φ=0
x5=0
φ=π
x5=πR
Figure 10: Orbifolding the circle to an interval
interval as an “orbifold” of the circle. This is illustrated in Fig. 10, where thepoints on the two hemispheres of the circle are identified. Mathematically,we identify the points at φ or x5 with −φ or −x5. In this way the physicalinterval extends a length πR, half the circumference of our original circle.This identification is possible if we also assign a “parity” transformation toall the fields, which is respected by the dynamics (i.e. the action). The actionwe have considered above has such a parity, given by
P ( x5) = −x5 P (Aµ) = +Aµ P (A(0)5 ) = −A(0)
5
P (ΨL) = +ΨL P (ΨR) = −ΨR ,(5.1)
precisely when the 5D fermion mass vanishes, m = 0. We consider this casefor now.
Ex. Check that the action is invariant under this parity transformation.With such a parity transformation we continue to pretend to live on a
circle, but with all fields satisfying
Φ(xµ,−x5) = P (Φ)(xµ, x5) . (5.2)
That is, the degrees of freedom for x5 < 0 are merely a reflection of degreesof freedom for x5 > 0, they have no independent existence. Of course we alsorequire circular periodicity,
Φ(xµ, φ + 2π) = Φ(xµ, φ) . (5.3)
These conditions specify “orbifold boundary conditions” on the interval, de-rived from the the circle, which of course has no boundary.
17
xµ
φ = 0x5 = 0
φ = πx5 = πR
AM , Ψ
χL(x)
Figure 11: Orbifolded higher dimensional spacetime (with boundaries)
which live in the “bulk” of the 5D spacetime, there is a 4D Weyl fermion pre-cisely confined to one of the 4D boundaries of the 5D spacetime, say φ = π.It can couple to the gauge field evaluated at the boundary if it carries somenon-trivial representation, say triplet. This represents a second way in whichthe chirality problem can be solved, localization to a physical 4D subspaceor “3-brane” (a “p”-brane has p spatial dimensions plus time), in this casethe boundary of our 5D spacetime. The new fermion has action,
Sχ =
!d4x χ
Li(x)
"i∂µδ
ij + gA ijµ (x, φ = π)
#χ
Lj(x) . (5.12)
At low energies, E ≪ 1/R, this fermion will have identical gauge coupling asthe Ψ(0) triplet, but it will have no Yukawa coupling, thereby giving a cruderepresentation of a light fermion of the standard model.
Well, there are other tricks that one can add to get closer and closer tothe real world. Ref. [14] gives a nice account of many model-building issuesand further references. I want to move in a new direction.
20
[N. Arkani-Hamed, M. Schmaltz (2000), D. Kaplan,T. Tait (2001)]
![Page 55: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/55.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 20
Is symmetry necessary to support Anarchy?
L = f(x5) �L(xµ) + f
1(x5) �1L(xµ) + ...
H(x)Solving E.O.M. and performing dimension reduction..
f(x5) ⇠pM exp(�Mx5)
Flavour Hierarchies from Extra-dimensions
φ=0φ=+π
φ=−π Identify+φ with −φ
(i.e. x5 with −x5)
φ=0 φ=π
φ=0
x5=0
φ=π
x5=πR
Figure 10: Orbifolding the circle to an interval
interval as an “orbifold” of the circle. This is illustrated in Fig. 10, where thepoints on the two hemispheres of the circle are identified. Mathematically,we identify the points at φ or x5 with −φ or −x5. In this way the physicalinterval extends a length πR, half the circumference of our original circle.This identification is possible if we also assign a “parity” transformation toall the fields, which is respected by the dynamics (i.e. the action). The actionwe have considered above has such a parity, given by
P ( x5) = −x5 P (Aµ) = +Aµ P (A(0)5 ) = −A(0)
5
P (ΨL) = +ΨL P (ΨR) = −ΨR ,(5.1)
precisely when the 5D fermion mass vanishes, m = 0. We consider this casefor now.
Ex. Check that the action is invariant under this parity transformation.With such a parity transformation we continue to pretend to live on a
circle, but with all fields satisfying
Φ(xµ,−x5) = P (Φ)(xµ, x5) . (5.2)
That is, the degrees of freedom for x5 < 0 are merely a reflection of degreesof freedom for x5 > 0, they have no independent existence. Of course we alsorequire circular periodicity,
Φ(xµ, φ + 2π) = Φ(xµ, φ) . (5.3)
These conditions specify “orbifold boundary conditions” on the interval, de-rived from the the circle, which of course has no boundary.
17
xµ
φ = 0x5 = 0
φ = πx5 = πR
AM , Ψ
χL(x)
Figure 11: Orbifolded higher dimensional spacetime (with boundaries)
which live in the “bulk” of the 5D spacetime, there is a 4D Weyl fermion pre-cisely confined to one of the 4D boundaries of the 5D spacetime, say φ = π.It can couple to the gauge field evaluated at the boundary if it carries somenon-trivial representation, say triplet. This represents a second way in whichthe chirality problem can be solved, localization to a physical 4D subspaceor “3-brane” (a “p”-brane has p spatial dimensions plus time), in this casethe boundary of our 5D spacetime. The new fermion has action,
Sχ =
!d4x χ
Li(x)
"i∂µδ
ij + gA ijµ (x, φ = π)
#χ
Lj(x) . (5.12)
At low energies, E ≪ 1/R, this fermion will have identical gauge coupling asthe Ψ(0) triplet, but it will have no Yukawa coupling, thereby giving a cruderepresentation of a light fermion of the standard model.
Well, there are other tricks that one can add to get closer and closer tothe real world. Ref. [14] gives a nice account of many model-building issuesand further references. I want to move in a new direction.
20
[N. Arkani-Hamed, M. Schmaltz (2000), D. Kaplan,T. Tait (2001)]
![Page 56: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/56.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 20
Is symmetry necessary to support Anarchy?
L = f(x5) �L(xµ) + f
1(x5) �1L(xµ) + ...
H(x)Solving E.O.M. and performing dimension reduction..
f(x5) ⇠pM exp(�Mx5)
i jH(x) ! fi(⇡R) fj(⇡R) �i(x)�j(x)H(x)
pMiMj exp(�|Mj +Mi|⇡R)
M1 > M2 > 0 > M3 generates appropriate hierarchy
Flavour Hierarchies from Extra-dimensions
φ=0φ=+π
φ=−π Identify+φ with −φ
(i.e. x5 with −x5)
φ=0 φ=π
φ=0
x5=0
φ=π
x5=πR
Figure 10: Orbifolding the circle to an interval
interval as an “orbifold” of the circle. This is illustrated in Fig. 10, where thepoints on the two hemispheres of the circle are identified. Mathematically,we identify the points at φ or x5 with −φ or −x5. In this way the physicalinterval extends a length πR, half the circumference of our original circle.This identification is possible if we also assign a “parity” transformation toall the fields, which is respected by the dynamics (i.e. the action). The actionwe have considered above has such a parity, given by
P ( x5) = −x5 P (Aµ) = +Aµ P (A(0)5 ) = −A(0)
5
P (ΨL) = +ΨL P (ΨR) = −ΨR ,(5.1)
precisely when the 5D fermion mass vanishes, m = 0. We consider this casefor now.
Ex. Check that the action is invariant under this parity transformation.With such a parity transformation we continue to pretend to live on a
circle, but with all fields satisfying
Φ(xµ,−x5) = P (Φ)(xµ, x5) . (5.2)
That is, the degrees of freedom for x5 < 0 are merely a reflection of degreesof freedom for x5 > 0, they have no independent existence. Of course we alsorequire circular periodicity,
Φ(xµ, φ + 2π) = Φ(xµ, φ) . (5.3)
These conditions specify “orbifold boundary conditions” on the interval, de-rived from the the circle, which of course has no boundary.
17
xµ
φ = 0x5 = 0
φ = πx5 = πR
AM , Ψ
χL(x)
Figure 11: Orbifolded higher dimensional spacetime (with boundaries)
which live in the “bulk” of the 5D spacetime, there is a 4D Weyl fermion pre-cisely confined to one of the 4D boundaries of the 5D spacetime, say φ = π.It can couple to the gauge field evaluated at the boundary if it carries somenon-trivial representation, say triplet. This represents a second way in whichthe chirality problem can be solved, localization to a physical 4D subspaceor “3-brane” (a “p”-brane has p spatial dimensions plus time), in this casethe boundary of our 5D spacetime. The new fermion has action,
Sχ =
!d4x χ
Li(x)
"i∂µδ
ij + gA ijµ (x, φ = π)
#χ
Lj(x) . (5.12)
At low energies, E ≪ 1/R, this fermion will have identical gauge coupling asthe Ψ(0) triplet, but it will have no Yukawa coupling, thereby giving a cruderepresentation of a light fermion of the standard model.
Well, there are other tricks that one can add to get closer and closer tothe real world. Ref. [14] gives a nice account of many model-building issuesand further references. I want to move in a new direction.
20
[N. Arkani-Hamed, M. Schmaltz (2000), D. Kaplan,T. Tait (2001)]
![Page 57: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/57.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 21
Flavour Hierarchies from Extra-dimensions
• No symmetry, Hierarchy is produced by geometry.
• Generalisation of FN charges.
• Unlike FN symmetry, idea of generating hierarchies through extra-dimension is compatible with Quark-Lepton Unification.
![Page 58: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/58.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 21
Flavour Hierarchies from Extra-dimensions
• No symmetry, Hierarchy is produced by geometry.
• Generalisation of FN charges.
• Unlike FN symmetry, idea of generating hierarchies through extra-dimension is compatible with Quark-Lepton Unification.
for example, in SO(10) unification
leads to universal hierarchy in quarks and leptons
![Page 59: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/59.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 22
Flavour Hierarchies from Extra-dimensions
xµ
φ = 0x5 = 0
φ = πx5 = πR
AM , Ψ
χL(x)
Figure 11: Orbifolded higher dimensional spacetime (with boundaries)
which live in the “bulk” of the 5D spacetime, there is a 4D Weyl fermion pre-cisely confined to one of the 4D boundaries of the 5D spacetime, say φ = π.It can couple to the gauge field evaluated at the boundary if it carries somenon-trivial representation, say triplet. This represents a second way in whichthe chirality problem can be solved, localization to a physical 4D subspaceor “3-brane” (a “p”-brane has p spatial dimensions plus time), in this casethe boundary of our 5D spacetime. The new fermion has action,
Sχ =
!d4x χ
Li(x)
"i∂µδ
ij + gA ijµ (x, φ = π)
#χ
Lj(x) . (5.12)
At low energies, E ≪ 1/R, this fermion will have identical gauge coupling asthe Ψ(0) triplet, but it will have no Yukawa coupling, thereby giving a cruderepresentation of a light fermion of the standard model.
Well, there are other tricks that one can add to get closer and closer tothe real world. Ref. [14] gives a nice account of many model-building issuesand further references. I want to move in a new direction.
20
H(x)
In SO(10) common profiles for all fermions…
f16(x5) ⇠p
M16 exp(�M16x5)
f16
[F. Feruglio, KMP, D. Vicino (2014,15)]
![Page 60: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/60.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 22
Flavour Hierarchies from Extra-dimensions
xµ
φ = 0x5 = 0
φ = πx5 = πR
AM , Ψ
χL(x)
Figure 11: Orbifolded higher dimensional spacetime (with boundaries)
which live in the “bulk” of the 5D spacetime, there is a 4D Weyl fermion pre-cisely confined to one of the 4D boundaries of the 5D spacetime, say φ = π.It can couple to the gauge field evaluated at the boundary if it carries somenon-trivial representation, say triplet. This represents a second way in whichthe chirality problem can be solved, localization to a physical 4D subspaceor “3-brane” (a “p”-brane has p spatial dimensions plus time), in this casethe boundary of our 5D spacetime. The new fermion has action,
Sχ =
!d4x χ
Li(x)
"i∂µδ
ij + gA ijµ (x, φ = π)
#χ
Lj(x) . (5.12)
At low energies, E ≪ 1/R, this fermion will have identical gauge coupling asthe Ψ(0) triplet, but it will have no Yukawa coupling, thereby giving a cruderepresentation of a light fermion of the standard model.
Well, there are other tricks that one can add to get closer and closer tothe real world. Ref. [14] gives a nice account of many model-building issuesand further references. I want to move in a new direction.
20
H(x)
In SO(10) common profiles for all fermions…
f16(x5) ⇠p
M16 exp(�M16x5)
However, if in the bulk SO(10) �! SU(5)⇥ U(1)X
M16 �! M16 +QXh45�i
16 = 10�1 + 53 + 1�5(Q, uc, ec) (dc, L) (N c)
f16
[F. Feruglio, KMP, D. Vicino (2014,15)]
![Page 61: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/61.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 22
Flavour Hierarchies from Extra-dimensions
xµ
φ = 0x5 = 0
φ = πx5 = πR
AM , Ψ
χL(x)
Figure 11: Orbifolded higher dimensional spacetime (with boundaries)
which live in the “bulk” of the 5D spacetime, there is a 4D Weyl fermion pre-cisely confined to one of the 4D boundaries of the 5D spacetime, say φ = π.It can couple to the gauge field evaluated at the boundary if it carries somenon-trivial representation, say triplet. This represents a second way in whichthe chirality problem can be solved, localization to a physical 4D subspaceor “3-brane” (a “p”-brane has p spatial dimensions plus time), in this casethe boundary of our 5D spacetime. The new fermion has action,
Sχ =
!d4x χ
Li(x)
"i∂µδ
ij + gA ijµ (x, φ = π)
#χ
Lj(x) . (5.12)
At low energies, E ≪ 1/R, this fermion will have identical gauge coupling asthe Ψ(0) triplet, but it will have no Yukawa coupling, thereby giving a cruderepresentation of a light fermion of the standard model.
Well, there are other tricks that one can add to get closer and closer tothe real world. Ref. [14] gives a nice account of many model-building issuesand further references. I want to move in a new direction.
20
H(x)
In SO(10) common profiles for all fermions…
f16(x5) ⇠p
M16 exp(�M16x5)
However, if in the bulk SO(10) �! SU(5)⇥ U(1)X
M16 �! M16 +QXh45�i
16 = 10�1 + 53 + 1�5(Q, uc, ec) (dc, L) (N c)
[F. Feruglio, KMP, D. Vicino (2014,15)]
![Page 62: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/62.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 22
Flavour Hierarchies from Extra-dimensions
xµ
φ = 0x5 = 0
φ = πx5 = πR
AM , Ψ
χL(x)
Figure 11: Orbifolded higher dimensional spacetime (with boundaries)
which live in the “bulk” of the 5D spacetime, there is a 4D Weyl fermion pre-cisely confined to one of the 4D boundaries of the 5D spacetime, say φ = π.It can couple to the gauge field evaluated at the boundary if it carries somenon-trivial representation, say triplet. This represents a second way in whichthe chirality problem can be solved, localization to a physical 4D subspaceor “3-brane” (a “p”-brane has p spatial dimensions plus time), in this casethe boundary of our 5D spacetime. The new fermion has action,
Sχ =
!d4x χ
Li(x)
"i∂µδ
ij + gA ijµ (x, φ = π)
#χ
Lj(x) . (5.12)
At low energies, E ≪ 1/R, this fermion will have identical gauge coupling asthe Ψ(0) triplet, but it will have no Yukawa coupling, thereby giving a cruderepresentation of a light fermion of the standard model.
Well, there are other tricks that one can add to get closer and closer tothe real world. Ref. [14] gives a nice account of many model-building issuesand further references. I want to move in a new direction.
20
H(x)
In SO(10) common profiles for all fermions…
f16(x5) ⇠p
M16 exp(�M16x5)
However, if in the bulk SO(10) �! SU(5)⇥ U(1)X
M16 �! M16 +QXh45�i
16 = 10�1 + 53 + 1�5(Q, uc, ec) (dc, L) (N c)
f16 �! {f10, f5, f1}
f10
f5 f1
[F. Feruglio, KMP, D. Vicino (2014,15)]
![Page 63: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/63.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 22
Flavour Hierarchies from Extra-dimensions
xµ
φ = 0x5 = 0
φ = πx5 = πR
AM , Ψ
χL(x)
Figure 11: Orbifolded higher dimensional spacetime (with boundaries)
which live in the “bulk” of the 5D spacetime, there is a 4D Weyl fermion pre-cisely confined to one of the 4D boundaries of the 5D spacetime, say φ = π.It can couple to the gauge field evaluated at the boundary if it carries somenon-trivial representation, say triplet. This represents a second way in whichthe chirality problem can be solved, localization to a physical 4D subspaceor “3-brane” (a “p”-brane has p spatial dimensions plus time), in this casethe boundary of our 5D spacetime. The new fermion has action,
Sχ =
!d4x χ
Li(x)
"i∂µδ
ij + gA ijµ (x, φ = π)
#χ
Lj(x) . (5.12)
At low energies, E ≪ 1/R, this fermion will have identical gauge coupling asthe Ψ(0) triplet, but it will have no Yukawa coupling, thereby giving a cruderepresentation of a light fermion of the standard model.
Well, there are other tricks that one can add to get closer and closer tothe real world. Ref. [14] gives a nice account of many model-building issuesand further references. I want to move in a new direction.
20
H(x)
In SO(10) common profiles for all fermions…
f16(x5) ⇠p
M16 exp(�M16x5)
However, if in the bulk SO(10) �! SU(5)⇥ U(1)X
M16 �! M16 +QXh45�i
16 = 10�1 + 53 + 1�5(Q, uc, ec) (dc, L) (N c)
f16 �! {f10, f5, f1}
f10
f5 f1
Only 4 parameters create 9 different profiles; Differences are created by only one parameter!
SO(10) in 5D creates SU(5) with U(1) FN like structure
[F. Feruglio, KMP, D. Vicino (2014,15)]
![Page 64: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/64.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 23
Some Results [F. Feruglio, KMP, D. Vicino (2014,15)]
Normal ordering Inverted ordering
Observable Fitted value Pull Fitted value Pull
yt 0.51 0 0.54 1.00
yb 0.37 0 0.37 0
y⌧ 0.51 0 0.47 -1.00
mu/mc 0.0027 0 0.0031 0.67
md/ms 0.051 0 0.045 -0.86
me/mµ 0.0048 0 0.0048 0
mc/mt 0.0023 0 0.0023 0
ms/mb 0.016 0 0.015 -0.50
mµ/m⌧ 0.050 0 0.049 -0.50
|Vus| 0.227 0 0.227 0
|Vcb| 0.037 0 0.038 1.00
|Vub| 0.0033 0 0.0030 -0.50
JCP 0.000023 0 0.000021 -0.51
�S/�A 0.0309 0 0.0320 0.73
sin
2 ✓12 0.308 0 0.309 0.06
sin
2 ✓23 0.425 0 0.435 -0.07
sin
2 ✓13 0.0234 0 0.0237 -0.10
�2min ⇡ 0 ⇡ 5.75
Predicted value Predicted valuem⌫lightest [meV] 0.08 2.15|m�� | [meV] 1.63 30.4
sin �lCP 0.265 0.510
MN1 [GeV] 3.85⇥ 10
61.13⇥ 10
4
MN2 [GeV] 9.31⇥ 10
73.06⇥ 10
6
MN3 [GeV] 2.19⇥ 10
142.02⇥ 10
13
�R [GeV] 0.05⇥ 10
160.18⇥ 10
16
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Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 23
Some Results [F. Feruglio, KMP, D. Vicino (2014,15)]
F10 = �0.7
0
@�3.9 0 00 �2.2 00 0 1
1
A
F5 = �0.4
0
@�0.8 0 00 �0.4 00 0 1
1
A
F1 = �1.5
0
@�7.4 0 00 �5.5 00 0 1
1
A
F10 = �0.3
0
@�3.7 0 00 �2.4 00 0 1
1
A
F5 = �0.3
0
@�1.5 0 00 �0.9 00 0 1
1
A
F1 = �0.4
0
@�6.2 0 00 �4.8 00 0 1
1
A
Normal Ordering
Inverted Ordering
Fitted ProfilesNormal ordering Inverted ordering
Observable Fitted value Pull Fitted value Pull
yt 0.51 0 0.54 1.00
yb 0.37 0 0.37 0
y⌧ 0.51 0 0.47 -1.00
mu/mc 0.0027 0 0.0031 0.67
md/ms 0.051 0 0.045 -0.86
me/mµ 0.0048 0 0.0048 0
mc/mt 0.0023 0 0.0023 0
ms/mb 0.016 0 0.015 -0.50
mµ/m⌧ 0.050 0 0.049 -0.50
|Vus| 0.227 0 0.227 0
|Vcb| 0.037 0 0.038 1.00
|Vub| 0.0033 0 0.0030 -0.50
JCP 0.000023 0 0.000021 -0.51
�S/�A 0.0309 0 0.0320 0.73
sin
2 ✓12 0.308 0 0.309 0.06
sin
2 ✓23 0.425 0 0.435 -0.07
sin
2 ✓13 0.0234 0 0.0237 -0.10
�2min ⇡ 0 ⇡ 5.75
Predicted value Predicted valuem⌫lightest [meV] 0.08 2.15|m�� | [meV] 1.63 30.4
sin �lCP 0.265 0.510
MN1 [GeV] 3.85⇥ 10
61.13⇥ 10
4
MN2 [GeV] 9.31⇥ 10
73.06⇥ 10
6
MN3 [GeV] 2.19⇥ 10
142.02⇥ 10
13
�R [GeV] 0.05⇥ 10
160.18⇥ 10
16
![Page 66: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/66.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 24
Some Results [F. Feruglio, KMP, D. Vicino (2014,15)]
0 2 4 6 80.0
0.1
0.2
0.3
0.4
m n1 @meV DProbability
0 2 4 6 80.00
0.05
0.10
0.15
0.20
»m bb » @meV D
Probability
-1.0 -0.5 0.0 0.5 1.00.00
0.01
0.02
0.03
0.04
0.05
0.06
0.07
dCPêp
Probability
![Page 67: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/67.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 24
Some Results [F. Feruglio, KMP, D. Vicino (2014,15)]
NOIO
0.1 1. 10. 100. 1000. 10 000.0.00
0.02
0.04
0.06
0.08
0.10
0.12
0.14
cmin2 ê n
Probability
0 2 4 6 80.0
0.1
0.2
0.3
0.4
m n1 @meV DProbability
0 2 4 6 80.00
0.05
0.10
0.15
0.20
»m bb » @meV D
Probability
-1.0 -0.5 0.0 0.5 1.00.00
0.01
0.02
0.03
0.04
0.05
0.06
0.07
dCPêp
Probability
![Page 68: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/68.jpg)
Anarchy and Neutrino data
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 24
Some Results [F. Feruglio, KMP, D. Vicino (2014,15)]
NOIO
0.1 1. 10. 100. 1000. 10 000.0.00
0.02
0.04
0.06
0.08
0.10
0.12
0.14
cmin2 ê n
Probability
0 2 4 6 80.0
0.1
0.2
0.3
0.4
m n1 @meV DProbability
0 2 4 6 80.00
0.05
0.10
0.15
0.20
»m bb » @meV D
Probability
MN1
MN 2
MN 3
4 6 8 10 12 140.0
0.1
0.2
0.3
0.4
0.5
0.6
Log10 HMNi ê GeVL
Probability
-1.0 -0.5 0.0 0.5 1.00.00
0.01
0.02
0.03
0.04
0.05
0.06
0.07
dCPêp
Probability
![Page 69: Decoding Neutrino Masses and Mixing From Symmetry to Anarchynuhorizons/nuhri6/talks/KPatel.pdf · Current status of neutrino masses and mixing Ketan Patel Decoding neutrino masses](https://reader034.fdocuments.us/reader034/viewer/2022042208/5eaad0f7fc19a75bed40b823/html5/thumbnails/69.jpg)
Conclusions
Decoding neutrino masses and mixing: From Symmetry to AnarchyKetan Patel 25
• Flavour Symmetry is quite a predictive and elegant tool in our quest for a theory of Flavour. But no clear compelling picture seems to be emerging so far. Present data can be described by varieties of idea and frameworks based on symmetries
• Anarchy: Simple schemes with minimal structures can well reproduce the flavour in both the quark and lepton sector.
Consistent with complete Quark-Lepton unification. Major drawback: No sharp predictions. No precision test is allowed.
• If special features (like maximal atmospheric mixing angle, maximal Dirac CP phase, inverted hierarchy in neutrino masses,…) survive experimental refinements then they can guide us in the search of first principles.