KAGRA vibration isolation meeting (5th of September 2012) Attendees: Takahashi, Majorana, DeSalvo, Sekiguchi, Uchiyama, Yamamoto Ryutaro and Takanori: Yesterday, they tuned the pre-isolator in Kashiwa. The output of the LVDT, the sensor signals of the 3 degrees of freedom (x,y,yaw), the efficiencies of the actuators were checked. Then, the displacement of each degree of freedom is measured when the DC force is applied by each actuator. Then, they tried the diagonization and measured the transfer functions. The diagonazation looks so good if the force along x-axis or for yaw rotation (In this case, the phase and coherence also look perfect). However, if the force is along y-axis, the diagonization is not so good. Probably, it is due to the asymmetry of the Inverted Pendulum or the insufficient parameter adjustment. Riccardo said that the repeat of the diagonalization and gain equalization process could improve the diagonization. This was observed also in Virgo, two or three iterations were necessary. Takanori said that the resonant peak separation is not so easy. Riccardo proposed that the mass on the stage is moved to change the resonant frequnecies. Riccardo also gave another idea; we remove the load on the top and try the diagonization without any load. And we check what happens when we put load again. (Riccardo's comment after the meeting: this should be tested only if the multiple diagonalization and gain equalization iterations fail) Riccardo: Nick and he measured a new LED and found that it is better for OSEM. (Riccardo's comment after this meeting: It is actually an older LED, not a new one, already in use for LIGO; I attach here curves measured by Nick and I, that convinced us to switch from OP 224 back to the older OP 232. you will note how the 232 has a better and more symmetric response uniformity. Even the 232 will need a software linearization table to convert the voltage readout into position readout, but with less dynamic range. Additionally the OP 232 gives more light, which will turn into less noise. Please note how the OSEMs are not so linear.) So, they changed the design. Ten OSEM's will delivered on the beginning of the next week. (Riccardo's comment after this meeting: the design will be finished at the beginning of next week, then production starts.) Probably, the ciruit boards can be printed in NAOJ. So, the mechanical parts will be made at Lucca. But the circuit boards will be made at NAOJ (Riccardo's comment after this meeting: details of the circuits to be discussed during my stay in Japan). Some pieces of the OSEM can be used for the cryogenic test. The production of the pre-isolator has already been started. (Riccardo's comment after this meeting: therefore I suggested to order 2 additional units for cryogenic tests I also suggested that we should also order a replacement rotational unit with AML motors to replace the not functional unit with picomotors presently installed in the pre-isolator prototype.) Riccardo is concerned about the safty structure. However, the budget is a problem. Nothing is decided yet. Riccardo is prepapring slides for the LV meeting and has already put them on JGW doc. He will give this talk on Monday. http://gwdoc.icrr.u-tokyo.ac.jp/cgi-bin/private/DocDB/ShowDocument?docid=1259 On the next week, Riccardo will stay in Rome for the LV meeting and dicuss the cryogenic payload with Ettore. And he will attend the meeting of the Italian physical society. Two weeks later, he is going to Amsterdam and works for the cryogenics suspension and seismic isolation ... There will be the meeting of the Physical society of Japan on the next Tuesday.