James Fast is Jefferson Lab’s MOLLER MIE project manager. Now, a new partnership forged between the DOE, the National Science Foundation and the Canadian Foundation for Innovation to support this important experiment is propelling work forward with new grants. CD-1 allowed the project to engage in design and prototyping of equipment. Preparation for this high-priority experiment kicked into high gear in December 2020, when the MOLLER MIE project received a designation of Critical Decision 1, or CD-1, from the DOE. The MOLLER research program was established at Jefferson Lab as a DOE Major Item of Equipment (MIE) project to support the experiment. The signal events will be collected in state-of-the-art detector systems in Jefferson Lab’s Experimental Hall A. These magnets separate the electron-electron scattering signal events from background events, where the beam electrons scatter off of the protons rather than the electrons in the target. After the interactions, electrons that come flying out of the target will be bent by spectrometer magnets. In the experiment, polarized electrons from CEBAF will interact with electrons from atoms inside a liquid hydrogen target. The experiment will be carried out in Jefferson Lab’s Continuous Electron Beam Accelerator Facility, a DOE Office of Science user facility. MOLLER’s precision measurement will test the theory that describes the particles and interactions that make up everyday matter. MOLLER is an experiment designed to precisely measure the electron’s weak charge, a gauge of how much influence the weak force exerts on the electron. The grants benefit the Measurement of a Lepton-Lepton Electroweak Reaction Experiment, called MOLLER. The grants come from the National Science Foundation and the Canadian Foundation for Innovation, with a matching award for the CFI grant from Research Manitoba. Department of Energy’s Thomas Jefferson National Accelerator Facility have recently been awarded new grants totaling more than $9 million. Review our Lab Orchestration & Automation Solutions page or Contact us for more information.Newswise - Thirteen universities working on a new experiment to be carried out at the U.S. Python, RESTful API, CLI, GUI and 3rd party lab automation software support Support of any MSA compliant SFP or QSFP/SFP28 Up to 512/1024 ports in 12 rack units (depending on interface blade) Multicast mapping and port mirroring to share test tools and provide simultaneous testingĬoldFusion also provides greater scalability of port density and data rates: Programmable link flapping to simulate cable cuts or port fail-overs Media conversion to allow mapping between equipment with differing media types Protocol agnostic, zero insertion loss, and latency of <50ns ColdFusion saves over half the rack space and extends the data rate support to 28Gbps.ĬoldFusion has all the features you love about the MCC: Customers can now replace the MRV MCC 9RU, 288 port, 10Gbps switch with Leptons 4 RU, 2-slot chassis with 256 ports running up to 28Gbps. Lepton’s ColdFusion 2-slot Chassis is an ideal drop-in replacement for the discontinued MRV Media Cross-Connect (MCC) L1 switch. Lower power consumption – a key consideration in lab deployment Portability – for increased mobility, can be easily moved throughout the lab as needed Low cost of entry – cost effective for smaller scale labs The small footprint allows the switch to be strategically placed throughout the lab allowing for:ĭistributed architecture – place smaller chassis where needed throughout the labĮdge deployment – small form factor suitable for edge applicationsĮase of clustering – use the 8-slot chassis as the hub with 2-slot chassis as spokes Depending on the type of interface blade used, system capacity is 64 QSFP, or 128 SFP ports. The 2-slot, ColdFusion chassis has a 4 RU footprint for smaller labs or labs with limited rack space. The ColdFusion 2-slot chassis design is based on the field-proven architecture of the existing 8 slot chassis and supports 10Mbps up to 128Gbps data rates (including RJ45 10/100/1000, 2.5G, 5G, 10G copper Ethernet) in just a 4 RU chassis. Lepton Systems has announced the release of a 2-slot chassis that addresses the needs of smaller deployments. Lepton 2-Slot ColdFusion Chassis for migrating your Adva (formerly MRV) MCC-equipped lab.
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