Add to ORKGStanford University's colliding beam program is outlined, including the SPEAR and PEP colliders and the SLAC linear collider. The accelerator developments to be pursued on these facilities are discussed, as well as advanced accelerator research and development. The items covered in the advanced accelerator research include beamstrahlung, stability requirements, breakdown limits, and power sources. (LEW
We, at SLAC, are in the process of preparing the SLC, the first linear collider, for the initial phy...
Probing the frontiers of particle physics and delving into the mysteries of the universe and its beg...
The Stanford Linear Collider (SLC) has been in operation for several years with the initial and acce...
The present SLAC accelerator program is summarized briefly, and the future of electron-positron coll...
The SLAC linear collider, in which beams of electrons and positrons are accelerated simultaneously, ...
The SLAC program centers around experimental and theoretical research in elementary particle physics...
operation at the-end of the linear accelerator at Stanford. By the recent discoveries in high energy...
The SLAC LINEAR COLLIDER is designed to achieve an energy of 100 GeV in the electron-positron center...
The linear collider system is described in detail, including the transport system, the collider latt...
The SLAC Linear Collider project (SLC) is reported as being near completion. The performance specifi...
The Stanford Linear Accelerator is presently being up-graded for the SLAC Linear Collider project. T...
We discuss the scaling laws of linear colliders and their consequences for accelerator design. We th...
The linac of the SLAC Linear Collider (SLC) is required to accelerate several intense electron and p...
The Stanford Linear Collider (SLC) is the first and only high-energy e{sup +}e{sup {minus}} linear c...
This paper reviews the innovations which have recently been made or are being planned on the SLAC th...
We, at SLAC, are in the process of preparing the SLC, the first linear collider, for the initial phy...
Probing the frontiers of particle physics and delving into the mysteries of the universe and its beg...
The Stanford Linear Collider (SLC) has been in operation for several years with the initial and acce...
The present SLAC accelerator program is summarized briefly, and the future of electron-positron coll...
The SLAC linear collider, in which beams of electrons and positrons are accelerated simultaneously, ...
The SLAC program centers around experimental and theoretical research in elementary particle physics...
operation at the-end of the linear accelerator at Stanford. By the recent discoveries in high energy...
The SLAC LINEAR COLLIDER is designed to achieve an energy of 100 GeV in the electron-positron center...
The linear collider system is described in detail, including the transport system, the collider latt...
The SLAC Linear Collider project (SLC) is reported as being near completion. The performance specifi...
The Stanford Linear Accelerator is presently being up-graded for the SLAC Linear Collider project. T...
We discuss the scaling laws of linear colliders and their consequences for accelerator design. We th...
The linac of the SLAC Linear Collider (SLC) is required to accelerate several intense electron and p...
The Stanford Linear Collider (SLC) is the first and only high-energy e{sup +}e{sup {minus}} linear c...
This paper reviews the innovations which have recently been made or are being planned on the SLAC th...
We, at SLAC, are in the process of preparing the SLC, the first linear collider, for the initial phy...
Probing the frontiers of particle physics and delving into the mysteries of the universe and its beg...
The Stanford Linear Collider (SLC) has been in operation for several years with the initial and acce...