# TimeEvolutionResult

`qiskit.algorithms.TimeEvolutionResult(evolved_state, aux_ops_evaluated=None, observables=None, times=None)`

Bases: `AlgorithmResult`

Class for holding time evolution result.

### evolved_state

An evolved quantum state.

**Type**

### aux_ops_evaluated

Optional list of observables for which expected values on an evolved state are calculated. These values are in fact tuples formatted as (mean, standard deviation).

**Type**

ListOrDict[tuple (opens in a new tab)[complex (opens in a new tab), complex (opens in a new tab)]] | None

### observables

Optional list of observables for which expected on an evolved state are calculated at each timestep. These values are in fact lists of tuples formatted as (mean, standard deviation).

**Type**

ListOrDict[tuple (opens in a new tab)[np.ndarray, np.ndarray]] | None

### times

Optional list of times at which each observable has been evaluated.

**Type**

np.array | None

**Parameters**

**evolved_state**(*QuantumCircuit**|**Statevector*) – An evolved quantum state.**aux_ops_evaluated**(*ListOrDict[**tuple*(opens in a new tab)*[**complex*(opens in a new tab)*,**complex*(opens in a new tab)*]] | None*) – Optional list of observables for which expected values on an evolved state are calculated. These values are in fact tuples formatted as (mean, standard deviation).**observables**(*ListOrDict[**tuple*(opens in a new tab)*[np.ndarray, np.ndarray]] | None*) – Optional list of observables for which expected values are calculated for each timestep. These values are in fact tuples formatted as (mean array, standard deviation array).**times**(*np.ndarray | None*) – Optional list of times at which each observable has been evaluated.

## Methods

### combine

`combine(result)`

Any property from the argument that exists in the receiver is updated. :param result: Argument result with properties to be set.

**Raises**

**TypeError** (opens in a new tab) – Argument is None