Pulse compression below 5 fs at MHz repetition rate:current status, prospects, and applications

The sub-5-fs pulses are used in nonlinear optical experiments to study ultrafast chemical reaction dynamics in solutions. The high repetition rate, simplicity, and large spectral bandwidth (>500 nm) make this light source ideal for spectroscopic applications in condensed phase

Pulse compression below 5 fs at MHz repetition rate: current status, prospects, and applications

The sub-5-fs pulses are used in nonlinear optical experiments to study ultrafast chemical reaction dynamics in solutions. The high repetition rate, simplicity, and large spectral bandwidth (>500 nm) make this light source ideal for spectroscopic applications in condensed phase.

Dendritic nicotinic receptors modulate backpropagating action potentials and long-term plasticity of interneurons

Stratum radiatum interneurons, unlike pyramidal cells, are rich in nicotinic acetylcholine receptors (nAChRs); however, the role of these receptors in plasticity has remained elusive. As opposed to previous physiological studies, we found that functional α7-subunit-containing nAChRs (α7-nAChRs) are abundant on interneuron dendrites of rats. Moreover, dendritic Ca2+ transients induced by activation of α7-nAChRs increase as a function of distance from soma. The activation of these extrasynaptic α7-nAChRs by cholinergic agonists either facilitated or depressed backpropagating action potentials, depending on the timing of α7-nAChR activation. We have previously shown that dendritic α7-nAChRs are involved in the regulation of synaptic transmission, suggesting that α7-nAChRs may play an important role in the regulation of the spike timing-dependent plasticity. Here we provide evidence that long-term potentiation is indeed boosted by stimulation of dendritic α7-nAChRs. Our results suggest a new mechanism for a cholinergic switch in memory encoding and retrieval

Pre-excitation studies for rubidium-plasma generation

a b s t r a c t The key element in the Proton-Driven-Plasma-Wake-Field-Accelerator (PWFA) project is the generation of highly uniform plasma from Rubidium vapor. A scientifically straightforward, yet highly challenging way to achieve full ionization is to use high power laser which can assure the barrier suppression ionization (BSI) along the 10 m long active region. The Wigner-team in Budapest is investigating an alternative way of uniform plasma generation. The proposed Resonance Enhanced Multi-Photon Ionization (REMPI) scheme can be probably realized by much less laser power. In the following we plan to investigate the resonant pre-excitations of the Rb atoms, both theoretically and experimentally. In the following our theoretical framework is presented together with the status report about the preparatory work of the planned experiment