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Update MPS manual in docs #262

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2 changes: 1 addition & 1 deletion docs/Project.toml
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Expand Up @@ -11,7 +11,7 @@ NetworkLayout = "46757867-2c16-5918-afeb-47bfcb05e46a"
Tenet = "85d41934-b9cd-44e1-8730-56d86f15f3ec"

[sources]
Tenet = {path = "/Users/mofeing/Developer/Tenet.jl/docs/.."}
Tenet = {path = ".."}

[compat]
Documenter = "1"
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75 changes: 58 additions & 17 deletions docs/src/manual/ansatz/mps.md
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# Matrix Product States (MPS)

Matrix Product States (MPS) are a Quantum Tensor Network ansatz whose tensors are laid out in a 1D chain.
Due to this, these networks are also known as _Tensor Trains_ in other mathematical fields.
Depending on the boundary conditions, the chains can be open or closed (i.e. periodic boundary conditions).
Matrix Product States ([`MPS`](@ref)) are a Quantum Tensor Network ansatz whose tensors are laid out in a 1D chain.
Due to this, these networks are also known as _Tensor Trains_ in other scientific fields.
Depending on the boundary conditions, the chains can be open or closed (i.e. periodic boundary conditions), currently
only `Open` boundary conditions are supported in `Tenet`.
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....currently
only Open boundary conditions are supported in Tenet.

There is a weird newline there. But also, this is the kind of information that can better be in a warning box.


```@setup viz
using Makie
Expand All @@ -18,36 +19,76 @@ using NetworkLayout
```@example viz
fig = Figure() # hide

tn_open = rand(MatrixProduct{State,Open}, n=10, χ=4) # hide
tn_periodic = rand(MatrixProduct{State,Periodic}, n=10, χ=4) # hide
open_mps = rand(MPS; n=10, maxdim=4) # hide

plot!(fig[1,1], tn_open, layout=Spring(iterations=1000, C=0.5, seed=100)) # hide
plot!(fig[1,2], tn_periodic, layout=Spring(iterations=1000, C=0.5, seed=100)) # hide
plot!(fig[1,1], open_mps, layout=Spring(iterations=1000, C=0.5, seed=100)) # hide

Label(fig[1,1, Bottom()], "Open") # hide
Label(fig[1,2, Bottom()], "Periodic") # hide

fig # hide
```

### Canonical Forms

An `MPS` representation is not unique: a single `MPS` can be represented in different canonical [`Form`](@ref). The choice of canonical form can affect the efficiency and stability of algorithms used to manipulate the `MPS`. You can check the canonical form of an `MPS` by calling the `form` function:
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The current form of the MPS is stored as a trait (refs etc) and can be accessed via the form function


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Depending on the form, Tenet will dispatch under the hood the appropriate algorithm which makes full use of the canonical form, so be careful when making modifications that might alter the form without changing the trait.

```@example
mps = MPS([rand(2, 2), rand(2, 2, 2), rand(2, 2)])
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# default ordering is (physical, virtual left, virtual right)


form(mps)
```

Currently, `Tenet` supports the [`NonCanonical`](@ref), [`CanonicalForm`](@ref) and [`MixedCanonical`](@ref) forms.
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Currently, `Tenet` supports the [`NonCanonical`](@ref), [`CanonicalForm`](@ref) and [`MixedCanonical`](@ref) forms.
Currently, `Tenet` has the following forms implemented:


#### `NonCanonical` Form
In the `NonCanonical` form, the tensors in the `MPS` do not satisfy any particular orthogonality conditions. This is the default `form` when an `MPS` is initialized without specifying a canonical form. It is useful for general purposes but may not be optimal for certain computations that benefit from orthogonality.

#### `Canonical` Form
Also known as Vidal's form, the `Canonical` form represents the `MPS` using a sequence of isometric tensors (`Γ`) and diagonal vectors (`λ`) containing the Schmidt coefficients. The `MPS` is expressed as:
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Also known as Vidal's form, the `Canonical` form represents the `MPS` using a sequence of isometric tensors (`Γ`) and diagonal vectors (`λ`) containing the Schmidt coefficients. The `MPS` is expressed as:
Also known as Vidal gauge, the `Canonical` form represents the `MPS` using a sequence of isometric tensors (`Γ`) and diagonal vectors (`λ`) containing the Schmidt coefficients. Mathematically, the `MPS` is expressed as:


```math
| \psi \rangle = \sum_{i_1, \dots, i_N} \Gamma_1^{i_1} \lambda_2 \Gamma_2^{i_2} \dots \lambda_{N-1} \Gamma_{N-1}^{i_{N-1}} \lambda_N \Gamma_N^{i_N} | i_1, \dots, i_N \rangle \, .
```

You can convert an `MPS` to the `Canonical` form by calling `canonize!`:

```@example
mps = MPS([rand(2, 2), rand(2, 2, 2), rand(2, 2)])
canonize!(mps)

form(mps)
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maybe better remove this? or maybe better use @repl instead of @example

https://documenter.juliadocs.org/stable/man/syntax/#@repl-block

```

#### `MixedCanonical` Form
In the `MixedCanonical` form, tensors to the left of the orthogonality center are left-canonical, tensors to the right are right-canonical, and the tensors at the orthogonality center (which can be `Site` or `Vector{<:Site}`) contains the entanglement information between the left and right parts of the chain. The position of the orthogonality center is stored in the `orthog_center` field.
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You need to explain what is left-/right-canonical

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... contains the entanglement information between the left and right parts of the chain. ...

I'm not convinced by this phrase but I don't know how to rephrase it jajajaj

any idea @arturgs @starsfordummies?

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I'd just remove the sentence "and the tensors... "


You can convert an `MPS` to the `MixedCanonical` form and specify the orthogonality center using `mixed_canonize!`:

```@example
mps = MPS([rand(2, 2), rand(2, 2, 2), rand(2, 2)])
mixed_canonize!(mps, Site(2))

form(mps)
```

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##### Additional Resources
For more in-depth information on Matrix Product States and their canonical forms, you may refer to:
- Schollwöck, U. (2011). The density-matrix renormalization group in the age of matrix product states. Annals of physics, 326(1), 96-192.
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ahh for this kind of citations we had a Documenter plugin that I've disabled. we can reenable it.

look for DocumenterCitations.jl



## Matrix Product Operators (MPO)

Matrix Product Operators (MPO) are the operator version of [Matrix Product State (MPS)](#matrix-product-states-mps).
The major difference between them is that MPOs have 2 indices per site (1 input and 1 output) while MPSs only have 1 index per site (i.e. an output).
Matrix Product Operators ([`MPO`](@ref)) are the operator version of [Matrix Product State (MPS)](#matrix-product-states-mps).
The major difference between them is that MPOs have 2 indices per site (1 input and 1 output) while MPSs only have 1 index per site (i.e. an output). Currently, only `Open` boundary conditions are supported in `Tenet`.

```@example viz
fig = Figure() # hide

tn_open = rand(MatrixProduct{Operator,Open}, n=10, χ=4) # hide
tn_periodic = rand(MatrixProduct{Operator,Periodic}, n=10, χ=4) # hide
open_mpo = rand(MPO, n=10, maxdim=4) # hide

plot!(fig[1,1], tn_open, layout=Spring(iterations=1000, C=0.5, seed=100)) # hide
plot!(fig[1,2], tn_periodic, layout=Spring(iterations=1000, C=0.5, seed=100)) # hide
plot!(fig[1,1], open_mpo, layout=Spring(iterations=1000, C=0.5, seed=100)) # hide

Label(fig[1,1, Bottom()], "Open") # hide
Label(fig[1,2, Bottom()], "Periodic") # hide

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fig # hide
```

In `Tenet`, the generic `MatrixProduct` ansatz implements this topology. Type variables are used to address their functionality (`State` or `Operator`) and their boundary conditions (`Open` or `Periodic`).
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