We demonstrate ultrafast resonant energy absorption of rare-gas doped He nanodroplets from intense few-cycle (~10 fs) laser pulses. We find that less than 10 dopant atoms "ignite" the droplet to generate a non-spherical electronic nanoplasma resulting ultimately in complete ionization and disintegration of all atoms, although the pristine He droplet is transparent for the laser intensities applied. Our calculations at those intensities reveal that the minimal pulse length required for ignition is about 9 fs
We present the first sequential laser excitation of atom-doped helium nanodroplets. Rubidium atoms o...
Helium nanodroplets are the smallest known objects exhibiting superfluidity, and they provide a uniq...
Helium nanodroplets are the smallest known objects exhibiting superfluidity, and they provide a uniq...
We demonstrate ultrafast resonant energy absorption of rare-gas doped He nanodroplets from intense f...
We demonstrate ultrafast resonant energy absorption of rare-gas doped He nanodroplets from intense f...
We demonstrate ultrafast resonant energy absorption of rare-gas doped He nanodroplets from intense f...
We demonstrate ultrafast resonant energy absorption of rare-gas doped He nanodroplets from intense f...
The ultra-fast dynamics of He nanodroplets (103–105 atoms) in intense (1…7 ×1014 W/cm2), few-cycle (...
In this dissertation, experimental studies on the interaction of intense few-cycle pulses with doped...
Doping a helium nanodroplet with only a tiny xenon cluster of a few atoms sparks complete ionization...
Two-component nanoplasmas generated by strong-field ionization of doped helium nanodroplets are stud...
Two-component nanoplasmas generated by strong-field ionization of doped helium nanodroplets are stud...
Two-component nanoplasmas generated by strong-field ionization of doped helium nanodroplets are stud...
Abstract. Two-component nanoplasmas generated by strong-field ionization of doped helium nanodroplet...
In this dissertation, experimental studies on the interaction of intense few-cycle pulses with doped...
We present the first sequential laser excitation of atom-doped helium nanodroplets. Rubidium atoms o...
Helium nanodroplets are the smallest known objects exhibiting superfluidity, and they provide a uniq...
Helium nanodroplets are the smallest known objects exhibiting superfluidity, and they provide a uniq...
We demonstrate ultrafast resonant energy absorption of rare-gas doped He nanodroplets from intense f...
We demonstrate ultrafast resonant energy absorption of rare-gas doped He nanodroplets from intense f...
We demonstrate ultrafast resonant energy absorption of rare-gas doped He nanodroplets from intense f...
We demonstrate ultrafast resonant energy absorption of rare-gas doped He nanodroplets from intense f...
The ultra-fast dynamics of He nanodroplets (103–105 atoms) in intense (1…7 ×1014 W/cm2), few-cycle (...
In this dissertation, experimental studies on the interaction of intense few-cycle pulses with doped...
Doping a helium nanodroplet with only a tiny xenon cluster of a few atoms sparks complete ionization...
Two-component nanoplasmas generated by strong-field ionization of doped helium nanodroplets are stud...
Two-component nanoplasmas generated by strong-field ionization of doped helium nanodroplets are stud...
Two-component nanoplasmas generated by strong-field ionization of doped helium nanodroplets are stud...
Abstract. Two-component nanoplasmas generated by strong-field ionization of doped helium nanodroplet...
In this dissertation, experimental studies on the interaction of intense few-cycle pulses with doped...
We present the first sequential laser excitation of atom-doped helium nanodroplets. Rubidium atoms o...
Helium nanodroplets are the smallest known objects exhibiting superfluidity, and they provide a uniq...
Helium nanodroplets are the smallest known objects exhibiting superfluidity, and they provide a uniq...