# Drive¶

class qctrl.dynamic.types.quasi_static_scan.Drive(*, control, operator, noise=None)

A (possibly noisy) complex control term for the quasi-static scan calculation of the form $$\left(1 + \beta_{\gamma_{j}} \right) \left(\gamma_{j}(t) C_{j} + \text{H.c.} \right)$$, where $$C_{j}$$ is a non-Hermitian operator, $$\gamma_{j}(t)$$ is a complex-valued piecewise-constant function between 0 and $$\tau$$, and $$\beta_{\gamma_{j}} \in \{\beta_{\gamma_j,i}\}$$ is the amplitude of its noise.

Variables
• control (List[qctrl.dynamic.types.ComplexSegmentInput]) – The list of segments, pairs of a duration and a value $$\{(\delta t_{\gamma_{j},n}, \gamma_{j,n})\}$$, that define the piecewise-constant control $$\gamma_{j}(t)$$. This means that $$\gamma_{j}(t) = \gamma_{j,n}$$ for $$t_{\gamma_{j},n-1} \leq t < t_{\gamma_{j},n}$$, where $$t_{\gamma_{j},0} = 0$$ and $$t_{\gamma_{j},n} = t_{\gamma_{j},n-1} + \delta t_{\gamma_{j},n}$$. You must provide at least one segment.

• operator (ndarray) – The non-Hermitian matrix $$C_{j}$$ that multiplies the complex control.

• noise (qctrl.dynamic.types.quasi_static_scan.Noise, optional) – The set of noise amplitudes $$\{\beta_{\gamma_{j},i}\}$$ associated to the term. If not provided, $$\beta_{\gamma_j}$$ is always 0. Only provide this argument if you want to scan this multiplicative noise.