| Lines 20-21 were replaced by line 20 |
| - At present, MA15 can only be used on RITA2. However, some |
| - [Restrictions|MA15RitaRestrictions] have to be obeyed. |
| + !Restrictions |
| Line 23 was replaced by lines 22-34 |
| - [Omega Motor Change on Rita2] |
| + __after several quenches, operation above 12.5 without lambda stage is not recommended [see|http://samenv:8080/sample_environment/61]__ |
| + |
| + Due to force limits, restrictions are defined for the use of MA15. |
| + ||Instrument ||Allowed Max. Field [[Tesla] |
| + |RITA-2 |11.5 ... 14.9, see [MA15 Rita Restrictions] |
| + |TASP |14.9, see [MA15 TASP Restrictions] |
| + |EIGER |13, see [MA15 Eiger Restrictions] |
| + |ZEBRA |14.9 for the longer distance as defined for MA15 |
| + On all other instruments, MA15 can not yet be used. |
| + |
| + [Specifications / Ramp Limits|MA15Specifications] |
| + |
| + More information on intranet page (Drawing): [LdmWiki:MA15] |
| Line 25 was replaced by line 36 |
| - [Specifications|MA15Specifications] |
| + [Omega Motor Change on Rita2] |
| Removed lines 44-50 |
| - * The rotatable sample stick has a relatively bad thermal contact. Therefore the |
| - minimal sample temperature is only about 2.5 K. It seems that increasing the |
| - amount of exchange gas does not help until it begins to condensate at |
| - the heat exchanger. If the scattering from the exchange gas does not |
| - disturb the measurement, achieving something around 1.8 K should be |
| - feasible. |
| - |
| At line 55 added 1 line. |
| + |
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