分类: 光学 >> 量子光学 提交时间: 2023-02-19
摘要: Two-beam coupling within the field of nonlinear optics, which transfers energy from one light beam to the other under certain conditions, has received considerable attention in inertial confinement fusion (ICF) and plasma optics. To evaluate the coupling dynamics precisely, we modeled this process with full-wave coupled Schrodinger equations (CSEs) and a nonlinear refractive index. We found that the CSEs constituted a Hamiltonian system and proposed an arbitrary higher-order explicit symplectic algorithm to solve the CSEs numerically. The numerical results given by the developed BEAM code showed a good agreement with those from particle-in-cell simulations, which demonstrated the validity of the model and algorithm. The model and numerical algorithm presented in this work can be extended to more nonlinear optical interactions described by coupled-wave equations.
分类: 天文学 >> 天文学 提交时间: 2023-02-19
摘要: ALETHEIA is a newly established dark matter direct detection project that aims at hunting for low-mass WIMPs. TPB is widely implemented in liquid helium and argon experiments to shift VUV photons to visible light. We first report that we have successfully coated $\sim 3 ~\mu$m TPB on the inner walls of a 10-cm cylindrical PTFE detector; we split the coating process into two steps to have all of the surfaces being coated with the same thickness; three independent methods were applied to figure out the thickness of the TPB coating layers, and consistent results were obtained. Second, with an SEM machine, we scanned the surface of TPB coating sample films exposed to different cryogenic temperatures. The first group of sample layers were immersed into a liquid nitrogen dewar for forty hours, the second group samples were cooled to 4.5 K for three hours, and the third group stayed at room temperature after coating. The SEM-scanned images of the sample films barely show any noticeable difference.
分类: 天文学 >> 天文学 提交时间: 2023-02-19
摘要: ALETHEIA is a newly established dark matter direct detection project that aims at hunting for low-mass WIMPs. TPB is widely implemented in liquid helium and argon experiments to shift VUV photons to visible light. We first report that we have successfully coated $\sim 3 ~\mu$m TPB on the inner walls of a 10-cm cylindrical PTFE detector; we split the coating process into two steps to have all of the surfaces being coated with the same thickness; three independent methods were applied to figure out the thickness of the TPB coating layers, and consistent results were obtained. Second, with an SEM machine, we scanned the surface of TPB coating sample films exposed to different cryogenic temperatures. The first group of sample layers were immersed into a liquid nitrogen dewar for forty hours, the second group samples were cooled to 4.5 K for three hours, and the third group stayed at room temperature after coating. The SEM-scanned images of the sample films barely show any noticeable difference.
分类: 天文学 >> 天文学 提交时间: 2023-02-19
摘要: No existence of convincing signals has become a ``new normal'' in the Dark Matter (DM) direct detection community for decades. Among other possibilities, the ``new normal'' might indicate that in addition to the traditional NR (Nuclear Recoil) events, ER (Electron Recoil) ones could also result from DM interactions, which have been considered as backgrounds historically. Further, we argue that ER and NR-like DM signals could co-exist in a detector's same dataset. So in total, there would be three scenarios we can search for DM candidate signals: (i) NR excess only, (ii) ER excess only, and (iii) both ER and NR excess. To effectively identify possible DM signals under the three scenarios, a DM detector should (a) have the minimum ER and NR backgrounds and (b) be capable of discriminating ER events from NR ones. Accordingly, we introduce the newly established project, ALETHEIA (A Liquid hElium Time projection cHambEr In dArk matter), which implements liquid helium TPCs (Time Projection Chamber) to hunt for low-mass ($\sim $100s MeV/c$^2$ - 10 GeV/c$^2$) DM. Presumably, the LHe TPC technology would have the minimum intrinsic backgrounds and strong ER/NR discrimination, therefore, be capable of identifying any kind of DM induced excess if it exists at all.