Add to ORKGThe initial commissioning of the LHC injections and beam dumps allowed the basic functionality of the systems to be verified, together with progress to be made on some of the systematic checks and measurements foreseen in the detailed commissioning programme. The observations and measurement results are summarised, including comparisons of element strengths and synchronisation, details of the local aperture measurements and some performance data for specific equipment sub-systems. The lessons learnt for the future LHC commissioning are emphasised
Following various injection tests, the full LHC beam commissioning started on September 10th. Within...
The transfer lines for both rings of the LHC were successfully re-commissioned with beam in preparat...
A series of LHC injection tests was performed in August and September 2008. The first saw beam injec...
The initial commissioning of the LHC injections and beam dumps allowed the basic functionality of th...
The commissioning of the beam transfer systems for LHC included detailed aperture measurements in th...
The hardware changes and maintenance actions on the LHC injection and beam dumping systems will be p...
The quality of the injection into the LHC is monitored by a dedicated software system which acquires...
The LHC injection tests and first turn beam commissioning took place in late summer 2008, after deta...
The LHC is equipped with a full suite of sophisticated beam instrumentation which has been essential...
Losses at injection into the superconducting LHC can adversely affect the machine performance in sev...
This paper will outline the progress with LHC commissioning to date, detailing the performance achie...
The movable LHC injection protection devices in the SPS-to-LHC transfer lines and downstream of the ...
The injection and beam dumping systems of the LHC will need to be upgraded to comply with the requir...
The LHC started up with beam in November 2009, and within less then on year its luminosity reached 2...
The LHC is an accelerator with unprecedented complexity where the energy stored in magnets and the b...
Following various injection tests, the full LHC beam commissioning started on September 10th. Within...
The transfer lines for both rings of the LHC were successfully re-commissioned with beam in preparat...
A series of LHC injection tests was performed in August and September 2008. The first saw beam injec...
The initial commissioning of the LHC injections and beam dumps allowed the basic functionality of th...
The commissioning of the beam transfer systems for LHC included detailed aperture measurements in th...
The hardware changes and maintenance actions on the LHC injection and beam dumping systems will be p...
The quality of the injection into the LHC is monitored by a dedicated software system which acquires...
The LHC injection tests and first turn beam commissioning took place in late summer 2008, after deta...
The LHC is equipped with a full suite of sophisticated beam instrumentation which has been essential...
Losses at injection into the superconducting LHC can adversely affect the machine performance in sev...
This paper will outline the progress with LHC commissioning to date, detailing the performance achie...
The movable LHC injection protection devices in the SPS-to-LHC transfer lines and downstream of the ...
The injection and beam dumping systems of the LHC will need to be upgraded to comply with the requir...
The LHC started up with beam in November 2009, and within less then on year its luminosity reached 2...
The LHC is an accelerator with unprecedented complexity where the energy stored in magnets and the b...
Following various injection tests, the full LHC beam commissioning started on September 10th. Within...
The transfer lines for both rings of the LHC were successfully re-commissioned with beam in preparat...
A series of LHC injection tests was performed in August and September 2008. The first saw beam injec...