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180 lines
4.4 KiB
180 lines
4.4 KiB
"""Fermionic quantum operators."""
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from sympy.core.numbers import Integer
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from sympy.core.singleton import S
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from sympy.physics.quantum import Operator
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from sympy.physics.quantum import HilbertSpace, Ket, Bra
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from sympy.functions.special.tensor_functions import KroneckerDelta
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__all__ = [
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'FermionOp',
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'FermionFockKet',
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'FermionFockBra'
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]
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class FermionOp(Operator):
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"""A fermionic operator that satisfies {c, Dagger(c)} == 1.
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Parameters
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==========
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name : str
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A string that labels the fermionic mode.
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annihilation : bool
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A bool that indicates if the fermionic operator is an annihilation
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(True, default value) or creation operator (False)
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Examples
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========
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>>> from sympy.physics.quantum import Dagger, AntiCommutator
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>>> from sympy.physics.quantum.fermion import FermionOp
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>>> c = FermionOp("c")
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>>> AntiCommutator(c, Dagger(c)).doit()
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1
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"""
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@property
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def name(self):
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return self.args[0]
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@property
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def is_annihilation(self):
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return bool(self.args[1])
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@classmethod
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def default_args(self):
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return ("c", True)
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def __new__(cls, *args, **hints):
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if not len(args) in [1, 2]:
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raise ValueError('1 or 2 parameters expected, got %s' % args)
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if len(args) == 1:
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args = (args[0], S.One)
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if len(args) == 2:
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args = (args[0], Integer(args[1]))
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return Operator.__new__(cls, *args)
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def _eval_commutator_FermionOp(self, other, **hints):
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if 'independent' in hints and hints['independent']:
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# [c, d] = 0
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return S.Zero
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return None
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def _eval_anticommutator_FermionOp(self, other, **hints):
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if self.name == other.name:
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# {a^\dagger, a} = 1
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if not self.is_annihilation and other.is_annihilation:
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return S.One
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elif 'independent' in hints and hints['independent']:
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# {c, d} = 2 * c * d, because [c, d] = 0 for independent operators
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return 2 * self * other
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return None
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def _eval_anticommutator_BosonOp(self, other, **hints):
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# because fermions and bosons commute
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return 2 * self * other
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def _eval_commutator_BosonOp(self, other, **hints):
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return S.Zero
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def _eval_adjoint(self):
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return FermionOp(str(self.name), not self.is_annihilation)
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def _print_contents_latex(self, printer, *args):
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if self.is_annihilation:
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return r'{%s}' % str(self.name)
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else:
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return r'{{%s}^\dagger}' % str(self.name)
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def _print_contents(self, printer, *args):
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if self.is_annihilation:
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return r'%s' % str(self.name)
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else:
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return r'Dagger(%s)' % str(self.name)
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def _print_contents_pretty(self, printer, *args):
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from sympy.printing.pretty.stringpict import prettyForm
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pform = printer._print(self.args[0], *args)
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if self.is_annihilation:
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return pform
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else:
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return pform**prettyForm('\N{DAGGER}')
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class FermionFockKet(Ket):
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"""Fock state ket for a fermionic mode.
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Parameters
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==========
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n : Number
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The Fock state number.
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"""
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def __new__(cls, n):
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if n not in (0, 1):
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raise ValueError("n must be 0 or 1")
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return Ket.__new__(cls, n)
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@property
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def n(self):
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return self.label[0]
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@classmethod
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def dual_class(self):
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return FermionFockBra
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@classmethod
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def _eval_hilbert_space(cls, label):
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return HilbertSpace()
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def _eval_innerproduct_FermionFockBra(self, bra, **hints):
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return KroneckerDelta(self.n, bra.n)
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def _apply_from_right_to_FermionOp(self, op, **options):
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if op.is_annihilation:
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if self.n == 1:
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return FermionFockKet(0)
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else:
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return S.Zero
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else:
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if self.n == 0:
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return FermionFockKet(1)
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else:
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return S.Zero
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class FermionFockBra(Bra):
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"""Fock state bra for a fermionic mode.
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Parameters
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==========
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n : Number
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The Fock state number.
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"""
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def __new__(cls, n):
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if n not in (0, 1):
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raise ValueError("n must be 0 or 1")
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return Bra.__new__(cls, n)
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@property
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def n(self):
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return self.label[0]
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@classmethod
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def dual_class(self):
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return FermionFockKet
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