Schmid Tobias, Thompson Kevin P, Rolland Jannick P
CREOL - The College of Optics and Photonics, University of Central Florida, 4000 Central Florida Blvd, Orlando, FL 32816, USA.
Opt Express. 2010 Mar 1;18(5):5282-8. doi: 10.1364/OE.18.005282.
We present the aberration field response of Ritchey-Chrétien telescopes, with the aperture stop on the primary mirror, to secondary mirror misalignments. More specifically, we derive a general condition for the geometry of the binodal astigmatic aberration field for a telescope that has been aligned to remove field-constant coma. It has been observed that when the coma caused by secondary mirror misalignments is removed the astigmatic field is typically not symmetric around the periphery, but, significantly, it is always effectively zero on-axis. This observation is a manifestation of binodal astigmatism where one of the astigmatic nodes remains near the field center. Here, we show how the condition to remove field-constant coma simultaneously creates a constraint whereby one of the astigmatic nodes must remain effectively on-axis. This result points to why the alignment of a large telescope based on axial imagery is insufficient and demonstrates exactly the geometry of the remaining misalignment aberration field, which dominates the performance of the telescope, providing insights into more complete alignment approaches.
我们展示了主镜上有孔径光阑的 Ritchey-Chrétien 望远镜对副镜失准的像差场响应。更具体地说,我们推导了一台已对准以消除场常数彗差的望远镜的双节像散像差场几何结构的一般条件。据观察,当由副镜失准引起的彗差被消除时,像散场通常在周边不对称,但重要的是,它在轴上总是有效地为零。这一观察结果是双节像散的一种表现,其中一个像散节点保持在视场中心附近。在这里,我们展示了消除场常数彗差的条件如何同时产生一个约束,即其中一个像散节点必须有效地保持在轴上。这一结果指出了基于轴向成像对大型望远镜进行对准为何不足,并精确地展示了剩余失准像差场的几何结构,该结构主导着望远镜的性能,为更完整的对准方法提供了见解。