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VERSION:2.0
PRODID:-//linuxsoftware.nz//NONSGML Joyous v1.4//EN
BEGIN:VEVENT
SUMMARY:Ultrafast Laser Science
DTSTART:20250429T140000Z
DTEND:20250429T160000Z
DTSTAMP:20260614T232524Z
UID:d41b03f3-9175-44f5-b1b6-d53084fb4208
SEQUENCE:2
CREATED:20250423T133408Z
DESCRIPTION:The development of ultrafast laser sources has revolutionized 
 the scientific landscape. Due to their versatility and precisely-controlle
 d properties\, these sources are widely used as drivers and diagnostic too
 ls across a broad range of cutting-edge applications. In the last few deca
 des\, the mid-infrared region has attracted substantial interest primarily
  due to its access to molecular vibrational and rotational modes\, as well
  as for its potential for enabling advanced phenomena such as harmonic gen
 eration and attosecond pulse generation.We present several experimental ef
 forts at the Laboratory of Intense Lasers (L2I) at Instituto Superior Téc
 nico\, with a particular focus on the development of a millijoule-level la
 ser source delivering 3000 nm pulses with a duration of 85 fs at a repetit
 ion rate of 10 Hz. This system is based on Chirped Pulse Amplification (CP
 A) and Optical Parametric Chirped Pulse Amplification (OPCPA).We also disc
 uss the design and numerical simulation of the front-end for the upcoming 
 VULCAN 20-20 project in the United Kingdom aiming for a 20 PW beamline.
LAST-MODIFIED:20250423T133420Z
LOCATION:Online
URL:http://df.vps.tecnico.ulisboa.pt/pt/eventos/ultrafast-laser-science/
X-ALT-DESC;FMTTYPE=text/html:<p data-block-key="rkryg">The development of 
 ultrafast laser sources has revolutionized the scientific landscape. Due t
 o their versatility and precisely-controlled properties\, these sources ar
 e widely used as drivers and diagnostic tools across a broad range of cutt
 ing-edge applications.<br/><br/> In the last few decades\, the mid-infrare
 d region has attracted substantial interest primarily due to its access to
  molecular vibrational and rotational modes\, as well as for its potential
  for enabling advanced phenomena such as harmonic generation and attosecon
 d pulse generation.<br/><br/><br/>We present several experimental efforts 
 at the Laboratory of Intense Lasers (L2I) at Instituto Superior Técnico\,
  with a particular focus on the development of a millijoule-level laser so
 urce delivering 3000 nm pulses with a duration of 85 fs at a repetition ra
 te of 10 Hz. This system is based on Chirped Pulse Amplification (CPA) and
  Optical Parametric Chirped Pulse Amplification (OPCPA).<br/><br/><br/>We 
 also discuss the design and numerical simulation of the front-end for the 
 upcoming VULCAN 20-20 project in the United Kingdom aiming for a 20 PW bea
 mline.</p>
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