netket.operator.KineticEnergy#

class netket.operator.KineticEnergy#

Bases: netket.operator.ContinuousOperator

This is the kinetic energy operator (hbar = 1). The local value is given by: \(E_{kin} = -1/2 ( \sum_i \frac{1}{m_i} (\log(\psi))'^2 + (\log(\psi))'' )\)

Inheritance

__init__(hilbert, mass, dtype=None)[source]#

Args: hilbert: The underlying Hilbert space on which the operator is defined mass: float if all masses are the same, list indicating the mass of each particle otherwise dtype: Data type of the matrix elements. Defaults to np.float64

Parameters

hilbert (netket.hilbert.AbstractHilbert) –
mass (Union[float, List[float]]) –
dtype (Optional[Any]) –

Attributes

H#

Returns the Conjugate-Transposed operator

Return type: AbstractOperator

T#

Returns the transposed operator

Return type: AbstractOperator

dtype#

Return type: Any

hilbert#

The hilbert space associated to this operator.

Return type: AbstractHilbert

is_hermitian#

mass#

size#

The total number number of local degrees of freedom.

Return type: int

Methods

collect()#

Returns a guaranteed concrete instance of an operator.

As some operations on operators return lazy wrappers (such as transpose, hermitian conjugate…), this is used to obtain a guaranteed non-lazy operator.

Return type: AbstractOperator

conj(*, concrete=False)#

Return type: AbstractOperator

conjugate(*, concrete=False)#

Returns the complex-conjugate of this operator.

Parameters: concrete – if True returns a concrete operator and not a lazy wrapper
Return type: AbstractOperator
Returns: if concrete is not True, self or a lazy wrapper; the complex-conjugated operator otherwise

transpose(*, concrete=False)#

Returns the transpose of this operator.

Parameters: concrete – if True returns a concrete operator and not a lazy wrapper
Return type: AbstractOperator
Returns: if concrete is not True, self or a lazy wrapper; the transposed operator otherwise