Project Builder Synoptic Display is a JavaTM application for flexible online graphical representa... more Project Builder Synoptic Display is a JavaTM application for flexible online graphical representation of data received from a data acquisition system. It was designed as a part of Fermilab’s Accelerator Applications Migration Project [1]. Synoptic Display is considered to be the next generation of such applications as ACNET Lexigraphics and EPICS MEDM. Synoptic Display projects (equivalents of MEDM screens) are rendered on major web browsers (for monitoring purposes) or launched in a web-startable console Java application (for both monitoring and control). Small bandwidth (as low as 100– 1000 byte/sec) is required between client and server sides due to usage of Scalable Vector Graphics (SVG) [2] for data transfer. Synoptic Display components (data sources, processing pipes, visualization widgets) can be graphically arranged and logically interconnected in a web-startable Project Builder. Projects are stored in a server-side repository in XML format. A Runtime Project Engine (RPE) ha...
For many years the Fermilab physics program has been dominated by the superconducting Tevatron ac... more For many years the Fermilab physics program has been dominated by the superconducting Tevatron accelerator producing beams for many fixed target and the proton-antiproton colliding beam experiments CDF and D0. More recently, major experiments have used beam from intermediate accelerators. The MiniBooNE and MINOS experiments use 8 and 120 GeV beam respectively for neutrino oscillation studies. Several other experiments and test beams have also used 120 GeV beam. This paper describes the control system for the accelerator complex that was originally developed for the start of Tevatron operation in 1983. This system is common to all accelerators in the chain, and has been successfully evolved to accommodate new hardware, new software platforms, new accelerators, and increasingly complex modes of operation.
This report, Volume IV of the International Linear Collider Reference Design Report, describes th... more This report, Volume IV of the International Linear Collider Reference Design Report, describes the detectors which will record and measure the charged and neutral particles produced in the ILC's high energy e+e- collisions. The physics of the ILC, and the environment of the machine-detector interface, pose new challenges for detector design. Several conceptual designs for the detector promise the needed
Fermilab's new Recycler Ring will recover and cool ``used'' antiprotons at the end of... more Fermilab's new Recycler Ring will recover and cool ``used'' antiprotons at the end of a Tevatron store and also accumulate ``new'' antiprotons from the antiproton source. A wideband rf system based on barrier buckets will result in unbunched beam, grouped in one to three separate partitions throughout the ring. A new beam position monitor system will measure position of any
For many years the Fermilab physics program has been dominated by the superconducting Tevatron ac... more For many years the Fermilab physics program has been dominated by the superconducting Tevatron accelerator producing beams for many fixed target and the proton-antiproton colliding beam experiments CDF and D0. More recently, major experiments have used beam from intermediate accelerators. The MiniBooNE and MINOS experiments use 8 and 120 GeV beam respectively for neutrino oscillation studies. Several other experiments and
Project Builder Synoptic Display is a JavaTM application for flexible online graphical representa... more Project Builder Synoptic Display is a JavaTM application for flexible online graphical representation of data received from a data acquisition system. It was designed as a part of Fermilab’s Accelerator Applications Migration Project [1]. Synoptic Display is considered to be the next generation of such applications as ACNET Lexigraphics and EPICS MEDM. Synoptic Display projects (equivalents of MEDM screens) are rendered on major web browsers (for monitoring purposes) or launched in a web-startable console Java application (for both monitoring and control). Small bandwidth (as low as 100– 1000 byte/sec) is required between client and server sides due to usage of Scalable Vector Graphics (SVG) [2] for data transfer. Synoptic Display components (data sources, processing pipes, visualization widgets) can be graphically arranged and logically interconnected in a web-startable Project Builder. Projects are stored in a server-side repository in XML format. A Runtime Project Engine (RPE) ha...
For many years the Fermilab physics program has been dominated by the superconducting Tevatron ac... more For many years the Fermilab physics program has been dominated by the superconducting Tevatron accelerator producing beams for many fixed target and the proton-antiproton colliding beam experiments CDF and D0. More recently, major experiments have used beam from intermediate accelerators. The MiniBooNE and MINOS experiments use 8 and 120 GeV beam respectively for neutrino oscillation studies. Several other experiments and test beams have also used 120 GeV beam. This paper describes the control system for the accelerator complex that was originally developed for the start of Tevatron operation in 1983. This system is common to all accelerators in the chain, and has been successfully evolved to accommodate new hardware, new software platforms, new accelerators, and increasingly complex modes of operation.
This report, Volume IV of the International Linear Collider Reference Design Report, describes th... more This report, Volume IV of the International Linear Collider Reference Design Report, describes the detectors which will record and measure the charged and neutral particles produced in the ILC's high energy e+e- collisions. The physics of the ILC, and the environment of the machine-detector interface, pose new challenges for detector design. Several conceptual designs for the detector promise the needed
Fermilab's new Recycler Ring will recover and cool ``used'' antiprotons at the end of... more Fermilab's new Recycler Ring will recover and cool ``used'' antiprotons at the end of a Tevatron store and also accumulate ``new'' antiprotons from the antiproton source. A wideband rf system based on barrier buckets will result in unbunched beam, grouped in one to three separate partitions throughout the ring. A new beam position monitor system will measure position of any
For many years the Fermilab physics program has been dominated by the superconducting Tevatron ac... more For many years the Fermilab physics program has been dominated by the superconducting Tevatron accelerator producing beams for many fixed target and the proton-antiproton colliding beam experiments CDF and D0. More recently, major experiments have used beam from intermediate accelerators. The MiniBooNE and MINOS experiments use 8 and 120 GeV beam respectively for neutrino oscillation studies. Several other experiments and
Uploads
Papers by Sharon Lackey