© 2007-2012 Thorlabs GmbH
151Appendix
Micro D-Sub jack 130
Microlens Array Selection 79
Microlens Data 125
microns 79
Miscellaneous 86
MLA150-5C 125
MLA150-7AR 125
Mode selection for wavefront reconstruction 83
Mounting Adapter 135
- N -
Noise Cut Level 67
- O -
Omit Piston + Tip + Tilt 63
Operating Instruction 30
Operating the instrument 42
Optometric constants 88
- P -
Paper format 116
Photodiode 134
Pickup-Tool 28
polar or rectangular coordinate 137
Position 134
Power Distribution 106
Preconditions 5
Print Graph 116
Print Window 116
Printer 116
Pupil Center 76
Pupil Definitions 76
Pupil Diameter 76
PV 88
- R -
radial order 137
Radius of Curvature 88
Reconstructed 58
Reference Position 134
Reflectivity of MLA150-7AR 128
Right-hand coordinate system (x
z) 38
RMS 88
RMS Variations 88
RMS wavefront variations 63
RoC 88
Rremote DataSocket server 111
- S -
Safety 4
Save Centroid Data 103
Save Instrument Settings 108
Save Measurement Data 100, 103
Save Only Wavefront Data 100, 103
Save Power Distribution Data 106
Separate DataSocket server 111
Serial Number 108
Service 117
Setup 43, 65
Setup Panel 65
Shack-Hartmann 23
Show RMS wavefront variations in Zernike orders 63
Slit 134
Software Installation 10
Specifications 123
Specifications of the MLA150 Series 125
Spotfield Configuration 52
Spotfield Panel 52
Start the Application 22
Start the GUI 22, 40
- T -
TCP/IP network 109
Technical Data 123
Tilt 79
Toolbar 43
Transmission of Fused Silica Material 128
Trigger Cable CAB-DCU-T2 130
Trigger Input 130
Troubleshouting 117
- U -
uc480 10
USB 17
USB Device 17
Use Beam Centroid 76
User Calibrated Reference 79
User Calibration 95
User Calibration using a Plane Wavefront 95
User Calibration using a Spherical Wavefront 95
- V -
Version Information 108
- W -
Warnings 91
Warranty 122