Synapsen verbinden Neuronen zu funktionellen Netzwerken. Falsch angelegte Verbindungen führen zu Funktionsstörungen oder zum Tod. Wie Synapsen hochpräzise an spezifischen Punkten auf den Dendriten angelegt werden, ist noch weitgehend unbekannt.
zeigte sich, dass repetitives Auslösen von Aktionspotentialen, sogenannten Spike Trains
The future of particle acceleration has begun. AWAKE is a promising concept for a completely new method with which particles can be accelerated even over short distances. The basis for this is a plasma wave that accelerates electrons and thus brings them to high energies. A team led by the Max Planck Institute for Physics (MPP) reports a breakthrough in Physical Review Letters. For the first time, they were able to precisely time the production of the proton microbunches that drive the wave in the plasma. This fulfills an important prerequisite for using the AWAKE technology for collision experiments.
Proton bunches in sync: A train of short proton bunches travels through the plasma
Synapsen verbinden Neuronen zu funktionellen Netzwerken. Falsch angelegte Verbindungen führen zu Funktionsstörungen oder zum Tod. Wie Synapsen hochpräzise an spezifischen Punkten auf den Dendriten angelegt werden, ist noch weitgehend unbekannt.
zeigte sich, dass repetitives Auslösen von Aktionspotentialen, sogenannten Spike Trains
The fear of terrorist attacks can alter our everyday behaviour and result in more fatal traffic accidents
And why didn’t Spanish driving habits change in the same way following the 2004 train
Max-Planck Institute of Quantum Optics, Holography meets frequency combs, Dr. Nathalie Picqué, Prof. Dr. Theodor W. Hänsch
An optical frequency comb generator emits a regular train of short laser pulses.
Cyber-physical systems are in strong demand for their ability to increase road traffic safety and optimize electricity consumption from renewable sources. They link vehicles to sensors that monitor traffic and order the car to brake if a dangerous situation arises, for example. Or they distribute electricity from multiple power plants to consumers as efficiently as possible. Rupak Majumdar, Director at the Max Planck Institute for Software Systems in Kaiserslautern, develops mathematical methods for ensuring the reliability of these networked systems.
best route of travel, and even change our plans on the spur of the moment if our train
Cyber-physical systems are in strong demand for their ability to increase road traffic safety and optimize electricity consumption from renewable sources. They link vehicles to sensors that monitor traffic and order the car to brake if a dangerous situation arises, for example. Or they distribute electricity from multiple power plants to consumers as efficiently as possible. Rupak Majumdar, Director at the Max Planck Institute for Software Systems in Kaiserslautern, develops mathematical methods for ensuring the reliability of these networked systems.
best route of travel, and even change our plans on the spur of the moment if our train
Licensed Max Planck Technology Helps Stroke Patients
The JYMMiN Face Active app offers millions of patients a new motivating way to train
Licensed Max Planck Technology Helps Stroke Patients
The JYMMiN Face Active app offers millions of patients a new motivating way to train
Licensed Max Planck Technology Helps Stroke Patients
The JYMMiN Face Active app offers millions of patients a new motivating way to train
