图 1  左图: 玻色原子沿着腔轴方向$\hat x$被俘获在准一维(1D)背景光学晶格中, 费米气被两束圆偏振的横向(沿着$\hat z$方向) 抽运激光驱动. 右图: 隧穿系数t, 接触型相互作用${U_{\rm{s}}}$和无限长程相互作用${U_{\rm{l}}}$

Fig. 1.  Left: Proposed experimental setup that the bosonic atoms trapped in a quasi-1D optical lattice interact with an optical cavity. Right: Illustration of the competing terms among the hopping t, the contact interaction ${U_{\rm{s}}}$ and the global-range interaction ${U_{\rm{l}}}$.

图 2  (a1), (b1), (c1)超流序$G(r)$和插图$n(k)$; (a2), (b2), (c2)密度分布$\left\langle {{{\hat n}_j}} \right\rangle $; (a3), (b3), (c3)二阶关联${D^2}(l, j)$; (a4), (b4), (c4)三阶关联${D^3}\left( {i, l, j} \right)$. (a1)—(a3) 超固0相, 相互作用参数${U_{\rm{s}}} = 10$和${U_{\rm{l}}} = 6$; (b1)—(b3) 超固1相, 相互作用参数${U_{\rm{s}}} = 10$和${U_{\rm{l}}} = 4.4$; (c1)—(c3) 超固2相, 相互作用参数${U_{\rm{s}}} = 2$和${U_{\rm{l}}} = 4.4$. 所有图中, 共有参数$L = 96$, $\rho = 0.4375$

Fig. 2.  (a1), (b1), (c1) Superfluid order $G(r)$ and $n(k)$; (a2), (b2), (c2) density profile $\left\langle {{{\hat n}_j}} \right\rangle $; (a3), (b3), (c3) two order correlation ${D^2}\left( {l, j} \right)$; (a4), (b4), (c4) three order correlation ${D^3}\left( {i, l, j} \right)$ for $i = j$ of (a1)–(a3) supersolid 0 phase with ${U_{\rm{s}}} = 10$ and ${U_{\rm{l}}} = 6$, (b1)–(b3) supersolid 1 phase with ${U_{\rm{s}}} = 10$ and ${U_{\rm{l}}} = 4.4$, and (c1)–(c3) supersolid 2 phase with ${U_{\rm{s}}} = 2$ and ${U_{\rm{l}}} = 4.4$. In all subfigure, we have $L = 96$ and $\rho = 0.4375$.

图 3  (a1), (b1)不同尺寸下的超流序$G(r)$, 插图为冥率的有限尺寸分析; (a2), (b2) $n(k = 0){{/}}L$ 的有限尺寸分析. (a1), (a2)超固1相, 参数${U_{\rm{s}}} = 10$和${U_{\rm{l}}} = 4.4$; (b1), (b2) 超固2相, 参数${U_{\rm{s}}} = 2$和${U_{\rm{l}}} = 4.4$. 所有图中, 共有参数$\rho = 0.4375$

Fig. 3.  (a1), (b1) Superfluid order $G(r)$ of several lattice length. The inset is the finite-size scaling of the decay rate. (a2), (b2) Finite-size scaling of $n(k = 0){{/}}L$. (a1), (a2) Supersolid 1 phase with ${U_{\rm{s}}} = 10$ and ${U_{\rm{l}}} = 4.4$. (b1), (b2) Supersolid 2 phase with ${U_{\rm{s}}} = 2$ and ${U_{\rm{l}}} = 4.4$. In all subfigure, we have $\rho = 0.4375$.

图 4  (a1)—(a3)和(b1)—(b3)密度分布$\left\langle {{{\hat n}_j}} \right\rangle $; (a4), (b4) ${\nu _{{\rm{peak}}}}$的有限尺寸分析. (a1)—(a4) 超固1相, 参数${U_{\rm{s}}} = 10$和${U_{\rm{l}}} = 4.4$; (b) 超固2相, 参数${U_{\rm{s}}} = 2$和${U_{\rm{l}}} = 4.4$. (a1), (b1) $L = 80$; (a2), (b2) $L = 64$; (a3), (b3) $L = 48$. 所有图中, 共有参数$\rho = 0.4375$

Fig. 4.  (a1) –(a3) and (b1) –(b3) the density profile $\left\langle {{{\hat n}_j}} \right\rangle $; (a4), (b4) the finite-size scaling of the ${\nu _{{\rm{peak}}}}$. (a1)–(a4) Supersolid 1 phase with ${U_{\rm{s}}} = 10$ and ${U_{\rm{l}}} = 4.4$; (b1)–(b4) supersolid 2 phase with ${U_{\rm{s}}} = 2$ and ${U_{\rm{l}}} = 4.4$. (a1), (b1) $L = 80$; (a2), (b2) $L = 64$; (a3), (b3) $L = 48$. In all subfigure, we have $\rho = 0.4375$.

图 5  $S(k = {\text{π}})$(黑色实线)和 ${\nu _{{\rm{peak}}}}$(蓝色方块)　(a) 关于${U_{\rm{l}}}$的变化, 固定${U_{\rm{s}}} = 10$; (c) 关于${U_{\rm{s}}}$ 的变化, 固定${U_{\rm{l}}} = 4.4$. 平均光子数${\left| {\left\langle {\hat a} \right\rangle } \right|^2}$和腔中的光子数$\left\langle {{{\hat a}^{\dagger} }\hat a} \right\rangle $关于 (b) 关于${U_{\rm{l}}}$的变化, 固定${U_{\rm{s}}} = 10$; (d) 关于${U_{\rm{s}}}$的变化, 固定${U_{\rm{l}}} = 4.4$. 所有图中, 共有参数$L = 96$和$\rho = 0.4375$. SF表示超流, MI表示莫特绝缘体, CDW表示电荷密度波, SS₀表示超固0相, SS₁表示超固1相, SS₂表示超固2相

Fig. 5.  The $S(k = {\text{π}})$(black solid line) and ${\nu _{{\rm{peak}}}}$(blue square) as function of (a) ${U_{\rm{l}}}$ with ${U_{\rm{s}}} = 10$, and (c) ${U_{\rm{s}}}$ with ${U_{\rm{l}}} = 4.4$. The number of cavity photons $\left\langle {{{\hat a}^{\dagger} }\hat a} \right\rangle $ and mean cavity-field ${\left| {\left\langle {\hat a} \right\rangle } \right|^2}$ as a function of (b) ${U_{\rm{l}}}$ with ${U_{\rm{s}}} = 10$, (d) ${U_{\rm{s}}}$ with ${U_{\rm{l}}} = 4.4$. In all subfigure, we have $L = 96$ and $\rho = 0.4375$. SF denotes superfluid, MI denotes Mott insulator, CDW denotes charge density wave, SS₀ denotes supersolid 0, SS₁ denotes supersolid 1, SS₂ denotes supersolid 2.

图 6  (a)—(c) ${U_{\rm{l}}}$-ρ平面的相图　(a) ${U_{\rm{s}}} = 0$; (b) ${U_{\rm{s}}} = 5$; (c) ${U_{\rm{s}}} = 10$. (d) ${U_{\rm{l}}}$-${U_{\rm{s}}}$平面的相图, 参数$\rho = 0.4375$. 所有图中, 共有参数$L = 96$. SF表示超流, MI表示莫特绝缘体, CDW表示电荷密度波, SS₀表示超固0相, SS₁表示超固1相, SS₂表示超固2相

Fig. 6.  (a)–(c) Phase-diagram between ${U_{\rm{l}}}$ and ρ with (a) ${U_{\rm{s}}} = 0$, (b) ${U_{\rm{s}}} = 5$ and (c) ${U_{\rm{s}}} = 10$. (d) Phase-diagram between ${U_{\rm{l}}}$ and ${U_{\rm{s}}}$, with filling $\rho = 0.4375$. In all subfigure, we have $L = 96$. SF denotes superfluid, MI denotes Mott insulator, CDW denotes charge density wave, SS₀ denotes supersolid 0, SS₁ denotes supersolid 1, SS₂ denotes supersolid 2.