# Copyright 2021 The NetKet Authors - All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
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from netket.utils.types import DType as _DType
from netket.hilbert import AbstractHilbert as _AbstractHilbert
from ._local_operator import LocalOperator as _LocalOperator
[docs]def sigmax(
hilbert: _AbstractHilbert, site: int, dtype: _DType = float
) -> _LocalOperator:
"""
Builds the :math:`\\sigma^x` operator acting on the `site`-th of the Hilbert
space `hilbert`.
If `hilbert` is a non-Spin space of local dimension M, it is considered
as a (M-1)/2 - spin space.
:param hilbert: The hilbert space
:param site: the site on which this operator acts
:return: a nk.operator.LocalOperator
"""
import numpy as np
N = hilbert.size_at_index(site)
S = (N - 1) / 2
D = [np.sqrt((S + 1) * 2 * a - a * (a + 1)) for a in np.arange(1, N)]
mat = np.diag(D, 1) + np.diag(D, -1)
return _LocalOperator(hilbert, mat, [site], dtype=dtype)
[docs]def sigmay(
hilbert: _AbstractHilbert, site: int, dtype: _DType = complex
) -> _LocalOperator:
"""
Builds the :math:`\\sigma^y` operator acting on the `site`-th of the Hilbert
space `hilbert`.
If `hilbert` is a non-Spin space of local dimension M, it is considered
as a (M-1)/2 - spin space.
:param hilbert: The hilbert space
:param site: the site on which this operator acts
:return: a nk.operator.LocalOperator
"""
import numpy as np
N = hilbert.size_at_index(site)
S = (N - 1) / 2
D = np.array([1j * np.sqrt((S + 1) * 2 * a - a * (a + 1)) for a in np.arange(1, N)])
mat = np.diag(D, -1) + np.diag(-D, 1)
return _LocalOperator(hilbert, mat, [site], dtype=dtype)
[docs]def sigmaz(
hilbert: _AbstractHilbert, site: int, dtype: _DType = float
) -> _LocalOperator:
"""
Builds the :math:`\\sigma^z` operator acting on the `site`-th of the Hilbert
space `hilbert`.
If `hilbert` is a non-Spin space of local dimension M, it is considered
as a (M-1)/2 - spin space.
:param hilbert: The hilbert space
:param site: the site on which this operator acts
:return: a nk.operator.LocalOperator
"""
import numpy as np
N = hilbert.size_at_index(site)
S = (N - 1) / 2
D = np.array([2 * m for m in np.arange(S, -(S + 1), -1)])
mat = np.diag(D, 0)
return _LocalOperator(hilbert, mat, [site], dtype=dtype)
[docs]def sigmam(
hilbert: _AbstractHilbert, site: int, dtype: _DType = float
) -> _LocalOperator:
"""
Builds the :math:`\\sigma^{-} = \\frac{1}{2}(\\sigma^x - i \\sigma^y)` operator acting on the
`site`-th of the Hilbert space `hilbert`.
If `hilbert` is a non-Spin space of local dimension M, it is considered
as a (M-1)/2 - spin space.
:param hilbert: The hilbert space
:param site: the site on which this operator acts
:return: a nk.operator.LocalOperator
"""
import numpy as np
N = hilbert.size_at_index(site)
S = (N - 1) / 2
S2 = (S + 1) * S
D = np.array([np.sqrt(S2 - m * (m - 1)) for m in np.arange(S, -S, -1)])
mat = np.diag(D, -1)
return _LocalOperator(hilbert, mat, [site], dtype=dtype)
[docs]def sigmap(
hilbert: _AbstractHilbert, site: int, dtype: _DType = float
) -> _LocalOperator:
"""
Builds the :math:`\\sigma^{+} = \\frac{1}{2}(\\sigma^x + i \\sigma^y)` operator acting on the
`site`-th of the Hilbert space `hilbert`.
If `hilbert` is a non-Spin space of local dimension M, it is considered
as a (M-1)/2 - spin space.
:param hilbert: The hilbert space
:param site: the site on which this operator acts
:return: a nk.operator.LocalOperator
"""
import numpy as np
N = hilbert.size_at_index(site)
S = (N - 1) / 2
S2 = (S + 1) * S
D = np.array([np.sqrt(S2 - m * (m + 1)) for m in np.arange(S - 1, -(S + 1), -1)])
mat = np.diag(D, 1)
return _LocalOperator(hilbert, mat, [site], dtype=dtype)