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Aspects of Quantum Cosmology
Sridip PalIISER Kolkata
09MS002
November 6,2013
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Outline
1 IntroductionWhy Quantum CosmologyThe problems in formulating Quantum Cosmology
2 Hamiltonian Formulation of General RelativityWriting Down the HamiltonianIntroducing DeWitt Metric
3 SuperspaceDefinitionMetrizing the Superspace
4 Homogeneous Closed UniverseQuantizing the Universe
5 Small Quantum SubsystemArriving at Schrodinger EquationProbability for Subsystem and its conservation
6 Ahead of It!!
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Introduction Why Quantum Cosmology
Amalgamation of Quantum Theory and Cosmology.
The very early universe before the Planck Time scale when the lengthof the universe is order of Planck length.
The thermodynamical arrow of time and its matching withcosmological arrow of time.
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Introduction Why Quantum Cosmology
Amalgamation of Quantum Theory and Cosmology.
The very early universe before the Planck Time scale when the lengthof the universe is order of Planck length.
The thermodynamical arrow of time and its matching withcosmological arrow of time.
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 3 / 21
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Introduction Why Quantum Cosmology
Amalgamation of Quantum Theory and Cosmology.
The very early universe before the Planck Time scale when the lengthof the universe is order of Planck length.
The thermodynamical arrow of time and its matching withcosmological arrow of time.
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 3 / 21
![Page 6: Aspects of Quantum Cosmology - Indian Institute of Science …students.iiserkol.ac.in/~sridippal/Quantum Cosmology.pdf · 2013. 11. 6. · Introduction Why Quantum Cosmology Amalgamation](https://reader036.vdocuments.net/reader036/viewer/2022081620/610591351db0900f450e9832/html5/thumbnails/6.jpg)
Introduction The problems in formulating Quantum Cosmology
The Problems in Formulation
When we study the evolution of universe time is alreday a coordinate
We need to find a parameter which is timelike against which ouruniverse will evolve.
We need to build up a configuration space for universe where we willdefine Quantum Dynamics.
The definition of Probability is not so well formulated.Someanisotropic models reveal time dependent norm when we defineprobability in standard way
Our aim is to look for a suitable definition of probablity so as toalleviate this time dependence leading to Unitarity of evolutionoperator
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 4 / 21
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Introduction The problems in formulating Quantum Cosmology
The Problems in Formulation
When we study the evolution of universe time is alreday a coordinate
We need to find a parameter which is timelike against which ouruniverse will evolve.
We need to build up a configuration space for universe where we willdefine Quantum Dynamics.
The definition of Probability is not so well formulated.Someanisotropic models reveal time dependent norm when we defineprobability in standard way
Our aim is to look for a suitable definition of probablity so as toalleviate this time dependence leading to Unitarity of evolutionoperator
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 4 / 21
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Introduction The problems in formulating Quantum Cosmology
The Problems in Formulation
When we study the evolution of universe time is alreday a coordinate
We need to find a parameter which is timelike against which ouruniverse will evolve.
We need to build up a configuration space for universe where we willdefine Quantum Dynamics.
The definition of Probability is not so well formulated.Someanisotropic models reveal time dependent norm when we defineprobability in standard way
Our aim is to look for a suitable definition of probablity so as toalleviate this time dependence leading to Unitarity of evolutionoperator
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 4 / 21
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Introduction The problems in formulating Quantum Cosmology
The Problems in Formulation
When we study the evolution of universe time is alreday a coordinate
We need to find a parameter which is timelike against which ouruniverse will evolve.
We need to build up a configuration space for universe where we willdefine Quantum Dynamics.
The definition of Probability is not so well formulated.Someanisotropic models reveal time dependent norm when we defineprobability in standard way
Our aim is to look for a suitable definition of probablity so as toalleviate this time dependence leading to Unitarity of evolutionoperator
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 4 / 21
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Introduction The problems in formulating Quantum Cosmology
The Problems in Formulation
When we study the evolution of universe time is alreday a coordinate
We need to find a parameter which is timelike against which ouruniverse will evolve.
We need to build up a configuration space for universe where we willdefine Quantum Dynamics.
The definition of Probability is not so well formulated.Someanisotropic models reveal time dependent norm when we defineprobability in standard way
Our aim is to look for a suitable definition of probablity so as toalleviate this time dependence leading to Unitarity of evolutionoperator
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 4 / 21
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Hamiltonian Formulation of General Relativity Writing Down the Hamiltonian
Hamiltonian Formulation
We foliate 4 dimensional spacetime manifold into spatialhypersurfaces labeled by a global time t.
ds2 = −N2dt2 + hij(dx i + N idt)(dx j + N jdt) (1)
Define extrinsic curvature of the hypersurface to be
Kij = −ni ;j =1
2N
(Ni |j + Nj |i −
∂hij
∂t
)(2)
where ni is normal to the spacelike hypersurface.
S =1
4κ2
[∫M
d4x√−gR(4) + 2
∫∂M
d3x√
hK
]+ Smatter (3)
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Hamiltonian Formulation of General Relativity Writing Down the Hamiltonian
Hamiltonian Formulation
We foliate 4 dimensional spacetime manifold into spatialhypersurfaces labeled by a global time t.
ds2 = −N2dt2 + hij(dx i + N idt)(dx j + N jdt) (1)
Define extrinsic curvature of the hypersurface to be
Kij = −ni ;j =1
2N
(Ni |j + Nj |i −
∂hij
∂t
)(2)
where ni is normal to the spacelike hypersurface.
S =1
4κ2
[∫M
d4x√−gR(4) + 2
∫∂M
d3x√
hK
]+ Smatter (3)
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 5 / 21
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Hamiltonian Formulation of General Relativity Writing Down the Hamiltonian
Hamiltonian Formulation
We foliate 4 dimensional spacetime manifold into spatialhypersurfaces labeled by a global time t.
ds2 = −N2dt2 + hij(dx i + N idt)(dx j + N jdt) (1)
Define extrinsic curvature of the hypersurface to be
Kij = −ni ;j =1
2N
(Ni |j + Nj |i −
∂hij
∂t
)(2)
where ni is normal to the spacelike hypersurface.
S =1
4κ2
[∫M
d4x√−gR(4) + 2
∫∂M
d3x√
hK
]+ Smatter (3)
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 5 / 21
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Hamiltonian Formulation of General Relativity Writing Down the Hamiltonian
Hamiltonian Formulation
We foliate 4 dimensional spacetime manifold into spatialhypersurfaces labeled by a global time t.
ds2 = −N2dt2 + hij(dx i + N idt)(dx j + N jdt) (1)
Define extrinsic curvature of the hypersurface to be
Kij = −ni ;j =1
2N
(Ni |j + Nj |i −
∂hij
∂t
)(2)
where ni is normal to the spacelike hypersurface.
S =1
4κ2
[∫M
d4x√−gR(4) + 2
∫∂M
d3x√
hK
]+ Smatter (3)
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 5 / 21
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Hamiltonian Formulation of General Relativity Writing Down the Hamiltonian
Hamiltonian formulation
S =
∫dtL =
∫d4xN
√h(K ijKij − K 2 + R(3)
)+ Smatter (4)
πij ≡ ∂L
∂hij
=−√
h
4κ2
(K ij − hijK
)(5)
π0 ≡ ∂L
∂N= 0 (6)
πi ≡ ∂L
∂Ni
= 0 (7)
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Hamiltonian Formulation of General Relativity Writing Down the Hamiltonian
Hamiltonian formulation
S =
∫dtL =
∫d4xN
√h(K ijKij − K 2 + R(3)
)+ Smatter (4)
πij ≡ ∂L
∂hij
=−√
h
4κ2
(K ij − hijK
)(5)
π0 ≡ ∂L
∂N= 0 (6)
πi ≡ ∂L
∂Ni
= 0 (7)
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Hamiltonian Formulation of General Relativity Writing Down the Hamiltonian
Hamiltonian formulation
S =
∫dtL =
∫d4xN
√h(K ijKij − K 2 + R(3)
)+ Smatter (4)
πij ≡ ∂L
∂hij
=−√
h
4κ2
(K ij − hijK
)(5)
π0 ≡ ∂L
∂N= 0 (6)
πi ≡ ∂L
∂Ni
= 0 (7)
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 6 / 21
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Hamiltonian Formulation of General Relativity Writing Down the Hamiltonian
Writing Down the Hamiltonian
H =
∫d3x
(π0N + πi Ni + NH+ NiHi
)(8)
where
H =
√h
2κ2
(G 0
0 − 2κ2T 00
)(9)
Hi =
√h
2κ2
(G 0i − 2κ2T 0i
)(10)
H = 0 (11)
Hi = 0 (12)
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Hamiltonian Formulation of General Relativity Writing Down the Hamiltonian
Writing Down the Hamiltonian
H =
∫d3x
(π0N + πi Ni + NH+ NiHi
)(8)
where
H =
√h
2κ2
(G 0
0 − 2κ2T 00
)(9)
Hi =
√h
2κ2
(G 0i − 2κ2T 0i
)(10)
H = 0 (11)
Hi = 0 (12)
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Hamiltonian Formulation of General Relativity Writing Down the Hamiltonian
Writing Down the Hamiltonian
H =
∫d3x
(π0N + πi Ni + NH+ NiHi
)(8)
where
H =
√h
2κ2
(G 0
0 − 2κ2T 00
)(9)
Hi =
√h
2κ2
(G 0i − 2κ2T 0i
)(10)
H = 0 (11)
Hi = 0 (12)
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Hamiltonian Formulation of General Relativity Introducing DeWitt Metric
Introducing DeWitt Metric
H = 4κ2Gijklπijπkl −√
h
4κ2R(3) −
√hT 0
0 (13)
Gijkl =1
2√
h(hikhjl + hilhjk − hijhkl) (14)
If we consider a phase space described by hij and πij ; Gijkl will providea metric on that space
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Hamiltonian Formulation of General Relativity Introducing DeWitt Metric
Introducing DeWitt Metric
H = 4κ2Gijklπijπkl −√
h
4κ2R(3) −
√hT 0
0 (13)
Gijkl =1
2√
h(hikhjl + hilhjk − hijhkl) (14)
If we consider a phase space described by hij and πij ; Gijkl will providea metric on that space
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Hamiltonian Formulation of General Relativity Introducing DeWitt Metric
Introducing DeWitt Metric
H = 4κ2Gijklπijπkl −√
h
4κ2R(3) −
√hT 0
0 (13)
Gijkl =1
2√
h(hikhjl + hilhjk − hijhkl) (14)
If we consider a phase space described by hij and πij ; Gijkl will providea metric on that space
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 8 / 21
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Superspace Definition
Superspace
Consider the space of all Riemannian 3-metrics and matter configurationon spatial hypersurfaces, Σ,
Riem(Σ) ≡ hij ,Φ(x) : x ∈ Σ (15)
All the geometry and configurations which are related to each otherby mere co ordinate transformation are physically equivalent.
Hence Superspace is defined to be
Superspace(Σ) ≡ Riem(Σ)
Diff (Σ)(16)
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Superspace Definition
Superspace
Consider the space of all Riemannian 3-metrics and matter configurationon spatial hypersurfaces, Σ,
Riem(Σ) ≡ hij ,Φ(x) : x ∈ Σ (15)
All the geometry and configurations which are related to each otherby mere co ordinate transformation are physically equivalent.
Hence Superspace is defined to be
Superspace(Σ) ≡ Riem(Σ)
Diff (Σ)(16)
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Superspace Definition
Superspace
Consider the space of all Riemannian 3-metrics and matter configurationon spatial hypersurfaces, Σ,
Riem(Σ) ≡ hij ,Φ(x) : x ∈ Σ (15)
All the geometry and configurations which are related to each otherby mere co ordinate transformation are physically equivalent.
Hence Superspace is defined to be
Superspace(Σ) ≡ Riem(Σ)
Diff (Σ)(16)
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Superspace Metrizing the Superspace
Metrizing the Superspace
The DeWitt metric provides a metric on Superspace, given by
GAB(x) = G(ij)(kl)(x) (17)
where A,B ∈ hij : i ≤ j , i , j ∈ 1, 2, 3
The inverse metric is given by GAB so that
G(ij)(kl)G(kl)(mn) =1
2
(δimδ
jn + δinδ
jm
)(18)
GAB =
√h
2
(hikhjl + hilhjk − 2hijhkl
)(19)
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Superspace Metrizing the Superspace
Metrizing the Superspace
The DeWitt metric provides a metric on Superspace, given by
GAB(x) = G(ij)(kl)(x) (17)
where A,B ∈ hij : i ≤ j , i , j ∈ 1, 2, 3The inverse metric is given by GAB so that
G(ij)(kl)G(kl)(mn) =1
2
(δimδ
jn + δinδ
jm
)(18)
GAB =
√h
2
(hikhjl + hilhjk − 2hijhkl
)(19)
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 10 / 21
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Superspace Metrizing the Superspace
Metrizing the Superspace
The DeWitt metric provides a metric on Superspace, given by
GAB(x) = G(ij)(kl)(x) (17)
where A,B ∈ hij : i ≤ j , i , j ∈ 1, 2, 3The inverse metric is given by GAB so that
G(ij)(kl)G(kl)(mn) =1
2
(δimδ
jn + δinδ
jm
)(18)
GAB =
√h
2
(hikhjl + hilhjk − 2hijhkl
)(19)
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 10 / 21
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Homogeneous Closed Universe
Superspace for Homogeneous Closed Universe
S =
∫dt
[1
2NGAB qAqB − NU(q)
](20)
where U(q) = V (Φ)− R(3)
4κ2
H = N
[1
2GABπAπB + U(q)
](21)
[1
2GABπAπB + U(q)
]= 0 (22)
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Homogeneous Closed Universe
Superspace for Homogeneous Closed Universe
S =
∫dt
[1
2NGAB qAqB − NU(q)
](20)
where U(q) = V (Φ)− R(3)
4κ2
H = N
[1
2GABπAπB + U(q)
](21)
[1
2GABπAπB + U(q)
]= 0 (22)
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 11 / 21
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Homogeneous Closed Universe Quantizing the Universe
Quantization and WKB approximation
πA 7→ −ı~∂
∂qA(23)
(~2
2∇2 − U
)ψ(q) = 0 (24)
The conserved current is
jα =−ı~
2Gαβ (ψ∗∇βψ − ψ∇βψ∗) (25)
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 12 / 21
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Homogeneous Closed Universe Quantizing the Universe
Quantization and WKB approximation
πA 7→ −ı~∂
∂qA(23)
(~2
2∇2 − U
)ψ(q) = 0 (24)
The conserved current is
jα =−ı~
2Gαβ (ψ∗∇βψ − ψ∇βψ∗) (25)
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 12 / 21
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Homogeneous Closed Universe Quantizing the Universe
Quantization and WKB approximation
πA 7→ −ı~∂
∂qA(23)
(~2
2∇2 − U
)ψ(q) = 0 (24)
The conserved current is
jα =−ı~
2Gαβ (ψ∗∇βψ − ψ∇βψ∗) (25)
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 12 / 21
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Homogeneous Closed Universe Quantizing the Universe
Probability
We take ansatz ψ = A(q)eıS(q)~ to arrive
jα = |A|2∇αS (26)
We can single out one co-ordinate as time and define hypersurfacesby t = constant.
Now we choose hypersurfaces in such a fashion that jαdΣα > 0
Hence probability is defined to be
P =
∫jαdΣα (27)
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Homogeneous Closed Universe Quantizing the Universe
Probability
We take ansatz ψ = A(q)eıS(q)~ to arrive
jα = |A|2∇αS (26)
We can single out one co-ordinate as time and define hypersurfacesby t = constant.
Now we choose hypersurfaces in such a fashion that jαdΣα > 0
Hence probability is defined to be
P =
∫jαdΣα (27)
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 13 / 21
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Homogeneous Closed Universe Quantizing the Universe
Probability
We take ansatz ψ = A(q)eıS(q)~ to arrive
jα = |A|2∇αS (26)
We can single out one co-ordinate as time and define hypersurfacesby t = constant.
Now we choose hypersurfaces in such a fashion that jαdΣα > 0
Hence probability is defined to be
P =
∫jαdΣα (27)
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 13 / 21
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Homogeneous Closed Universe Quantizing the Universe
Probability
We take ansatz ψ = A(q)eıS(q)~ to arrive
jα = |A|2∇αS (26)
We can single out one co-ordinate as time and define hypersurfacesby t = constant.
Now we choose hypersurfaces in such a fashion that jαdΣα > 0
Hence probability is defined to be
P =
∫jαdΣα (27)
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 13 / 21
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Small Quantum Subsystem
Small Quantum Subsystem
Consider a small quantum subsystem with Hq′ being the hamiltonian:
ds2 = Gαβqαqβ + Gαmqαq′m + Gmnq′mq′n (28)
Gαβ(q, q′) = G0αβ(q) + O(λ) (29)
The subspace defined by subsystem is orthogonal to the subspacedefined by coordinates of universe in the leading order.
Gαm(q, q′) = O(λ) (30)
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 14 / 21
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Small Quantum Subsystem
Small Quantum Subsystem
Consider a small quantum subsystem with Hq′ being the hamiltonian:
ds2 = Gαβqαqβ + Gαmqαq′m + Gmnq′mq′n (28)
Gαβ(q, q′) = G0αβ(q) + O(λ) (29)
The subspace defined by subsystem is orthogonal to the subspacedefined by coordinates of universe in the leading order.
Gαm(q, q′) = O(λ) (30)
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Small Quantum Subsystem
Small Quantum Subsystem
Consider a small quantum subsystem with Hq′ being the hamiltonian:
ds2 = Gαβqαqβ + Gαmqαq′m + Gmnq′mq′n (28)
Gαβ(q, q′) = G0αβ(q) + O(λ) (29)
The subspace defined by subsystem is orthogonal to the subspacedefined by coordinates of universe in the leading order.
Gαm(q, q′) = O(λ) (30)
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 14 / 21
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Small Quantum Subsystem
Small Quantum Subsystem
Consider a small quantum subsystem with Hq′ being the hamiltonian:
ds2 = Gαβqαqβ + Gαmqαq′m + Gmnq′mq′n (28)
Gαβ(q, q′) = G0αβ(q) + O(λ) (29)
The subspace defined by subsystem is orthogonal to the subspacedefined by coordinates of universe in the leading order.
Gαm(q, q′) = O(λ) (30)
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 14 / 21
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Small Quantum Subsystem Arriving at Schrodinger Equation
Arriving the Schrodinger Equation for Subsystem
[~2
2∇2 − U − Hq′
]Ψ = 0 (31)
Take ansatz Ψ(q, q′) = ψ(q)χ(q, q′)
Note[~2
2 ∇2 − U
]ψ(q) = 0
NHq′χ = ı~∂χ
∂t(32)
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Small Quantum Subsystem Arriving at Schrodinger Equation
Arriving the Schrodinger Equation for Subsystem
[~2
2∇2 − U − Hq′
]Ψ = 0 (31)
Take ansatz Ψ(q, q′) = ψ(q)χ(q, q′)
Note[~2
2 ∇2 − U
]ψ(q) = 0
NHq′χ = ı~∂χ
∂t(32)
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Small Quantum Subsystem Arriving at Schrodinger Equation
Arriving the Schrodinger Equation for Subsystem
[~2
2∇2 − U − Hq′
]Ψ = 0 (31)
Take ansatz Ψ(q, q′) = ψ(q)χ(q, q′)
Note[~2
2 ∇2 − U
]ψ(q) = 0
NHq′χ = ı~∂χ
∂t(32)
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 15 / 21
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Small Quantum Subsystem Arriving at Schrodinger Equation
Arriving the Schrodinger Equation for Subsystem
[~2
2∇2 − U − Hq′
]Ψ = 0 (31)
Take ansatz Ψ(q, q′) = ψ(q)χ(q, q′)
Note[~2
2 ∇2 − U
]ψ(q) = 0
NHq′χ = ı~∂χ
∂t(32)
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 15 / 21
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Small Quantum Subsystem Probability for Subsystem and its conservation
Conserved Currents
For the universe jα = |A|2~∇αS |χ|2 = jα0 |χ|2
For quantum subsystem, jm = −ı~2 |A|
2 (χ∗∇mχ− χ∇mχ∗)
define ρχ = |χ|2 and jmχ = −ı~2 (χ∗∇mχ− χ∇mχ∗)
Normalisation condition yields∫jα0 dΣα
∫ρχdΩq′ = 1 (33)
This sets normalisation conditon on the probability of small quantumsubsytem.
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 16 / 21
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Small Quantum Subsystem Probability for Subsystem and its conservation
Conserved Currents
For the universe jα = |A|2~∇αS |χ|2 = jα0 |χ|2
For quantum subsystem, jm = −ı~2 |A|
2 (χ∗∇mχ− χ∇mχ∗)
define ρχ = |χ|2 and jmχ = −ı~2 (χ∗∇mχ− χ∇mχ∗)
Normalisation condition yields∫jα0 dΣα
∫ρχdΩq′ = 1 (33)
This sets normalisation conditon on the probability of small quantumsubsytem.
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 16 / 21
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Small Quantum Subsystem Probability for Subsystem and its conservation
Conserved Currents
For the universe jα = |A|2~∇αS |χ|2 = jα0 |χ|2
For quantum subsystem, jm = −ı~2 |A|
2 (χ∗∇mχ− χ∇mχ∗)
define ρχ = |χ|2 and jmχ = −ı~2 (χ∗∇mχ− χ∇mχ∗)
Normalisation condition yields∫jα0 dΣα
∫ρχdΩq′ = 1 (33)
This sets normalisation conditon on the probability of small quantumsubsytem.
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 16 / 21
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Small Quantum Subsystem Probability for Subsystem and its conservation
Conserved Currents
For the universe jα = |A|2~∇αS |χ|2 = jα0 |χ|2
For quantum subsystem, jm = −ı~2 |A|
2 (χ∗∇mχ− χ∇mχ∗)
define ρχ = |χ|2 and jmχ = −ı~2 (χ∗∇mχ− χ∇mχ∗)
Normalisation condition yields∫jα0 dΣα
∫ρχdΩq′ = 1 (33)
This sets normalisation conditon on the probability of small quantumsubsytem.
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 16 / 21
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Small Quantum Subsystem Probability for Subsystem and its conservation
Probability conservation in Subsystem
∇αjα +∇mjm = 0 (34)
Write jα = (|A|2~∇αS)ρχ and use ∇αjα0 = 0
1
N
∂ρχ∂t
+ ∂mjmχ = 0 (35)
Everything falls into place and we get back our standard QM result!!
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 17 / 21
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Small Quantum Subsystem Probability for Subsystem and its conservation
Probability conservation in Subsystem
∇αjα +∇mjm = 0 (34)
Write jα = (|A|2~∇αS)ρχ and use ∇αjα0 = 0
1
N
∂ρχ∂t
+ ∂mjmχ = 0 (35)
Everything falls into place and we get back our standard QM result!!
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 17 / 21
![Page 53: Aspects of Quantum Cosmology - Indian Institute of Science …students.iiserkol.ac.in/~sridippal/Quantum Cosmology.pdf · 2013. 11. 6. · Introduction Why Quantum Cosmology Amalgamation](https://reader036.vdocuments.net/reader036/viewer/2022081620/610591351db0900f450e9832/html5/thumbnails/53.jpg)
Small Quantum Subsystem Probability for Subsystem and its conservation
Probability conservation in Subsystem
∇αjα +∇mjm = 0 (34)
Write jα = (|A|2~∇αS)ρχ and use ∇αjα0 = 0
1
N
∂ρχ∂t
+ ∂mjmχ = 0 (35)
Everything falls into place and we get back our standard QM result!!
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 17 / 21
![Page 54: Aspects of Quantum Cosmology - Indian Institute of Science …students.iiserkol.ac.in/~sridippal/Quantum Cosmology.pdf · 2013. 11. 6. · Introduction Why Quantum Cosmology Amalgamation](https://reader036.vdocuments.net/reader036/viewer/2022081620/610591351db0900f450e9832/html5/thumbnails/54.jpg)
Ahead of It!!
What Lies Ahead
The anisotropic Models, Bianchi-V and Bianchi-IX show nonunitarityupon a particular choice of time parameter.
The DeWitt metric always has a signature of (−,+,+..). So we willtry to take coordinate with opposite signature as time.
In that case the resulting equation may not be first order in timederivative unlike Schrodinger equation.
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 18 / 21
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Ahead of It!!
What Lies Ahead
The anisotropic Models, Bianchi-V and Bianchi-IX show nonunitarityupon a particular choice of time parameter.
The DeWitt metric always has a signature of (−,+,+..). So we willtry to take coordinate with opposite signature as time.
In that case the resulting equation may not be first order in timederivative unlike Schrodinger equation.
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 18 / 21
![Page 56: Aspects of Quantum Cosmology - Indian Institute of Science …students.iiserkol.ac.in/~sridippal/Quantum Cosmology.pdf · 2013. 11. 6. · Introduction Why Quantum Cosmology Amalgamation](https://reader036.vdocuments.net/reader036/viewer/2022081620/610591351db0900f450e9832/html5/thumbnails/56.jpg)
Ahead of It!!
What Lies Ahead
The anisotropic Models, Bianchi-V and Bianchi-IX show nonunitarityupon a particular choice of time parameter.
The DeWitt metric always has a signature of (−,+,+..). So we willtry to take coordinate with opposite signature as time.
In that case the resulting equation may not be first order in timederivative unlike Schrodinger equation.
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 18 / 21
![Page 57: Aspects of Quantum Cosmology - Indian Institute of Science …students.iiserkol.ac.in/~sridippal/Quantum Cosmology.pdf · 2013. 11. 6. · Introduction Why Quantum Cosmology Amalgamation](https://reader036.vdocuments.net/reader036/viewer/2022081620/610591351db0900f450e9832/html5/thumbnails/57.jpg)
Ahead of It!!
References
An Introduction to Quantum Cosmology, D.L.Wiltshire,[arXiv :0101003v2[gr-qc]]
D. Atkatz, Am. J. Phys, 62, 619 (1994)
A. Vilenkin, Phys. Rev. D 39,1116 (1989) 2491 (1974)
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 19 / 21
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Ahead of It!!
Acknowledgement
The speaker acknowdeges a debt of gratitude to
Prof. N. Banerjee, Dept. of Physical Sciences, IISER Kolkata for hisvaluable time and guidance.
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 20 / 21
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Ahead of It!!
THANK YOU
Sridip Pal IISER Kolkata 09MS002 () Aspects of Quantum Cosmology November 6,2013 21 / 21