System Operations Eastbourne, October 2005 Towards the 1-mm: -A realistic goal ? -A vision ? -A myth ? -???
System Operations: Accuracy Eastbourne, October 2005 How to reach the 1 mm ACCURACY ? Is it possible ? How to reach the 1 mm STABILITY ? Is it possible ? Which developments are necessary ? Recommended ? Is the 1 mm a realistic / achievable goal ? Simple answer: Yes, but we do not know WHEN
Eastbourne, October mm: What we need … Good LASER: SSDPL (Solid State Diode Pumped) Short Pulse Duration: 10 ps Good Event Timer: A032-ET (Riga): < 10 ps RMS, < 2 ps nonlinearity, kHz... Dassault Modules (Graz E.T.): < 3 ps RMS, < 2 ps nonlinearity Good detector: C-SPAD, Time Walk Compensated; Good satellites: ZERO Signature; PLUS strong return signal ! Grace A, Grace B, Champ: No sat signature, good signal LARET-C: Zero signature, but weak signal
Eastbourne, October mm: Needs a good laser … UPGRADE THE LASER: Switch to Solid State Lasers (e.g. kHz); Excellent Pulse uniformity; Excellent Stability (shot-to-shot, day-by-day); Short Pulses (10 ps in Graz) => better accuracy; We do not see any disadvantage... Change from „TUBES“ to „SOLID STATE“ !!!
October mm: Needs strong signals … With a 10-ps laser, good ET, strong-signal / zero signature sat.: 2 – 3 mm Single Shot RMS precision; With VERY strong returns (> 300 pe / return): 1 mm SS RMS Measure Return Signal Strength of EACH return: C-SPAD: Use Time Difference Comp. / Uncomp. Output Select returns with > 300 pe only 1 mm RMS In CALs to 4 km Retro Target: Routinely achieved; Current project ongoing in Graz; results in Canberra expected
Eastbourne, October 2005 CAL RMS: From 10 Hz to kHz
Eastbourne, October 2005 CAL P-M: From 10 Hz to kHz
Eastbourne, October mm with flash lamp laser ? Old 10-Hz-Laser system in Graz (but with E.T. etc.): Peak-minus-Mean: about ± 2 mm variations; Too big; => difficult to reach the 1 mm goal !!! With new Solid State Laser (kHz): Peak-minus-Mean: MUCH better, very stable !!! about ± 0.3 mm variations only...
Eastbourne, October mm: Needs a good satellite … Use Retros / panels WITHOUT satellite signatures !!! GRACE-A GRACE-B CHAMP ??? 2-3 mm SS RMS
Eastbourne, October mm Accuracy / Stability All previous comparisons: From 10 Hz Flash Lamp to 2 kHz Solid State Laser All other Equipment: Same... Event Timer (Graz E.T. / Dassault Modules) Same C-SPAD; same other equipment.... Conclusion again: Change from „TUBES“ to „SOLID STATE“ !!!
Eastbourne, October 2005 Laser Pulse Width and Accuracy Wide range of pulse widths used in SLR: 10 ps: Graz / kHz / Solid State Laser; 35 –50 ps: Standard Lasers; Flash Lamp Pumped; 110 ps: e.g. Herstmonceux Flash Lamp Pumped; 300 ps: SLR 2000 Any other ? What is the „best“/„optimum“/„desired“ pulse width ?
Eastbourne, October 2005 Laser Pulse Width Selection 10 ps: Present optimum; no reason for shorter pulses … No significant contribution to overall systematics anymore; Excellent for Single-Photon-Detectors; Allowa to see – and to handle - Single Retros …. 300 ps: Can be eye-safe at e.g. 50 cm dia, if < 150 µJ / pulse Relatively big contribution to overall systematics; 1mm goal for Lageos => difficult with SPE signals< Satellite signature problem slightly increasing; Less problems with LEOs / MultiPhoton Detection
Eastbourne, October 2005 Measuring Laser Pulse Width I have no idea how to measure it... But Jerry Wiant is doing it