TY - DATA T1 - Simulated results for position dependence of the relative peak phase space density of the guided ND3 molecular beam in the filter with R = 150 mm PY - 2013/06/26 AU - Shunyong Hou AU - Qin Wang AU - Lianzhong Deng AU - Jianping Yin UR - https://iop.figshare.com/articles/figure/_Simulated_results_for_position_dependence_of_the_relative_peak_phase_space_density_of_the_guided_ND/1012187 DO - 10.6084/m9.figshare.1012187.v1 L4 - https://ndownloader.figshare.com/files/1480009 KW - velocity filter KW - peak phase space density KW - position dependence KW - filter setup KW - front part KW - position changes KW - nd KW - phase space density KW - beam selection process KW - packet moves KW - gas reservoir KW - Monte Carlo simulations KW - Atomic Physics KW - Molecular Physics N2 - Figure 11. Simulated results for position dependence of the relative peak phase space density of the guided ND3 molecular beam in the filter with R = 150 mm. The phase space density of the guided beam is first enhanced as the packet moves from the position of = 0° to = 10°, and then gradually reduced when the position changes from = 10° to = 70°. All data are normalized to one at the position of = 10°. Abstract We propose a scheme of a surface electrostatic velocity filter capable of preparing cold polar molecules on the surface of a substrate by selecting a low-velocity component of an effusive beam from a thermal gas reservoir. Using ND3 as a molecular sample, the dependence of the performance of the filter on the parameters of both the filter setup and the incident molecular beam is investigated by using a theoretical model and Monte Carlo simulations. A detailed study of the guiding process of molecules, including the evolution of phase space density of the packet in the filter, is carried out and shows that the beam selection process is mainly completed in the front part of the filter. ER -