图 1  n量子比特系统弱测量的原理图. 系统初始态为$\left|S_{{\rm{i}}}\right\rangle$, 探针初始态为$|T\rangle$. 系统和探针之间的演化算符为$\hat {\boldsymbol {U}} $. 演化后对系统做$\left| {{S}_{{\rm{f}}}} \right\rangle $的后选择. 探针末态为$\left|T_{{\rm{f}}}\right\rangle$

Fig. 1.  Schematic diagram of the weak measurement of the n qubit system. The initial state of the system is $\left|S_{{\rm{i}}}\right\rangle$, and the initial state of the pointer is $|T\rangle$. The evolution operator is $ \hat {\boldsymbol {U}} $ between the system and the pointer. After the evolution, the system is selected to $\left| {{S}_{{\rm{f}}}} \right\rangle $. The final state of the pointer is $\left|T_{{\rm{f}}}\right\rangle$

图 2  (a)后选择概率${{P}_{{\rm{d}}}}$随θ和φ的变化趋势; (b)总的Fisher信息${{F}_{{\rm{tot}}}}$随θ和φ的变化趋势. 图中红色的线表示$\theta +\varphi = {\pi }/{2}$. 参数选取为$n=2$, $\delta = 4\times {{10}^{4}}\;{{{\rm{m}}}^{-1}}$, $\varepsilon = $$ 0.01$, $g=0.88\;\rm{μ} {\rm{m}}$

Fig. 2.  (a) Post-selection probability ${{P}_{{\rm{d}}}}$ as a function of θ and φ; (b) total Fisher information ${{F}_{{\rm{tot}}}}$ as a function of θ and φ. The red line represent $\theta +\varphi = {\pi }/{2}$. Parameters selection: $n=2$, $\delta = 4\times {{10}^{4}}\;{{{\rm{m}}}^{-1}}$, $\varepsilon = $$ 0.01$, $g=0.88\;\rm{μ} {\rm{m}}$.

图 3  类GHZ态的纠缠纯态的纠缠度$E_{{\rm{s}}}^{({\rm{p}})}$随参数θ的变化曲线, 绘制了$\theta =\{0, \pi /2\}$的范围

Fig. 3.  Entanglement $E_{{\rm{s}}}^{({\rm{p}})}$ of the entangled pure states of GHZ-like states as a function of the parameter $\theta$. we have plotted the range of $\theta =\{0, \pi /2\}$.

图 4  蓝色曲线表示后选择概率随纠缠度$E_{{\rm{s}}}^{({\rm{p}})}$的变化曲线, 橙色曲线表示耦合参数g的Fisher信息随纠缠度$E_{{\rm{s}}}^{({\rm{p}})}$的变化曲线. 参数选取: $\delta = 4\times {{10}^{4}}\;{{{\rm{m}}}^{-1}}$, $\varepsilon = 0.01$, $g= $$ 0.88\;\text{μ} {\rm{m}}$, $n=2$.

Fig. 4.  Blue curve represents the post-selection probability as a function of entanglement $E_{{\rm{s}}}^{({\rm{p}})}$, and the orange curve represents the Fisher information of the coupling parameter g as a function of entanglement $E_{{\rm{s}}}^{({\rm{p}})}$. Parameter selection: $\delta = 4\times {{10}^{4}}\;{{{\rm{m}}}^{-1}}$, $\varepsilon = 0.01$, $g=0.88\;\text{μ} {\rm{m}}$, $n=2$.

图 5  $n=2$时, 系统初态的纠缠度$E_{{\rm{s}}}^{({\rm{m}})}$随纯度参数Q的变化曲线

Fig. 5.  Entanglement $E_{{\rm{s}}}^{({\rm{m}})}$ of the initial state of the system as a function of the purity parameter Q. Parameter selection: $n=2$.

图 6  蓝色曲线表示后选择概率随纠缠度$E_{{\rm{s}}}^{({\rm{m}})}$的变化曲线, 橙色曲线表示参数g的Fisher信息随纠缠度$E_{{\rm{s}}}^{({\rm{m}})}$的变化曲线. 参数选取: $\delta = 4\times {{10}^{4}}\;{{{\rm{m}}}^{-1}}$, $\varepsilon = 0.01$, $g=0.88\;\rm{μ} {\rm{m}}$

Fig. 6.  Blue curve represents the post-selection probability as a function of entanglement $E_{{\rm{s}}}^{({\rm{m}})}$, and the orange curve represents the Fisher information of the parameter g as a function of entanglement $E_{{\rm{s}}}^{({\rm{m}})}$. Parameter selection: $\delta = 4\times {{10}^{4}}\;{{{\rm{m}}}^{-1}}$, $\varepsilon = 0.01$, $g=0.88\;\rm {μ} {\rm{m}}$.

图 7  浅蓝色曲线表示初态为纠缠态时参数g的Fisher信息随耦合参数g的变化曲线, 深蓝色曲线表示初态为直积态时参数g的Fisher信息随耦合参数g的变化曲线. 参数选取: $n=2$, $\delta = 4\times {{10}^{4}}\;{{{\rm{m}}}^{-1}}$, $\varepsilon = 0.01$

Fig. 7.  Light blue curve represents Fisher information of the parameter g as a function of the coupling parameter g when the initial state is entangled, and dark blue curve represents Fisher information of the parameter g as a function of the coupling parameter g when the initial state is product state. Parameter selection: $n=2$, $\delta = 4\times {{10}^{4}}\;{{{\rm{m}}}^{-1}}$, $\varepsilon = $$ 0.01$.

图 8  (a) 系统探针之间的纠缠度${{E}_{{\rm{st}}}}$随耦合参数g的变化曲线; (b)参数g的Fisher信息随系统探针之间的纠缠度${{E}_{{\rm{st}}}}$的变化曲线. 参数选取为$\delta = 4\times {{10}^{4}}\;{{{\rm{m}}}^{-1}}, \varepsilon = 0.01$

Fig. 8.  (a) Entanglement ${{E}_{{\rm{st}}}}$ between system and pointers as a function of the coupling parameter g; (b) the Fisher information of the parameter g as a function of the entanglement ${{E}_{{\rm{st}}}}$ between system and pointers. Parameter selection: $\delta = 4\times {{10}^{4}}\;{{{\rm{m}}}^{-1}}, \varepsilon = 0.01$.