The 05RP12-34 Multiple-Order Quartz Wave Plates is a crystal quartz optic designed to differentially retard the phase of a polarized beam. With the proper phase shift, this waveplate can rotate the direction of polarization and the amount of polarization rotation is twice the amount of the waveplate rotation. This 1/2 inch (12.7 mm) diameter wave plate is 1mm thick and has λ/2 (180°) retardation. It is antireflection coated to maximize transmission at 1064 nm. When using multiple-order wave plates, several items should be considered. A wave plate of practical thickness produces a multiple of λ/4 or λ/2 retardation. Higher orders cause retardation to vary dramatically with wavelength. Wave plates are sensitive to temperature changes. A typical multiple-order wave plate has a temperature coefficient of 0.0015λ/°C, compared to 0.0001λ/°C for a zero-order wave plate, so tighter temperature control will be required. Precise adjustment of retardation is possible by tilting the wave plate. Tilting about the slow axis increases retardation, while tilting about the fast axis reduces retardation.

05RP12-34多阶石英波片是一种石英晶体光学器件,用于不同程度地延迟偏振光的相位。通过适当的相移,该波板可以旋转偏振方向,偏振旋转量是波板旋转量的两倍。这波片1/2英寸(12.7毫米)直径是1毫米厚,λ/ 2(180°)缺陷。它是防反射涂层,以最大限度的透射在1064纳米。在使用多阶波板时,应考虑几个问题。一波板的实际厚度产生λ/ 4的倍数或λ/ 2阻滞。较高的阶数会引起阻滞随波长的显著变化。波板对温度变化很敏感。一个典型的多级的波板的温度系数0.0015λ/°C,相比0.0001λ/°C零级波片,所以需要更严格的温度控制。通过倾斜波板可以精确地调整减速。慢轴倾斜会增加减速,而快轴倾斜会减少减速。