Attosecond Metrology and Spectroscopy

Martin Schultze, Reinhard Kienberger

Publikation: Beitrag in Buch/Bericht/KonferenzbandBeitrag in Buch/BerichtForschungBegutachtung

Abstract

Time resolved investigations of electron dynamics in a variety of sample systems as atoms, molecules and solids establish the spearhead of modern ultrafast science. The technology that enables scientists to track and control these processes is referred to as “attosecond metrology” and is associated in symbiosis with ultrashort laser source development.
The origin of attosecond metrology is linked to the advent of ultrashort mode locked laser sources-femtosecond lasers, chirped pulse amplification, carrier-envelope-phase stabilization-and the technological aspects of this development that rendered experiments with a temporal resolution of tens of attoseconds possible. The high-order harmonicgeneration process yields laser pulses in the wavelength region around 10 nm with durations below 100 attoseconds, at the same time being the shortest controllable signals. We introduce the different spectroscopic techniques that make use of this unprecedented temporal resolution. While the “attosecond transient recorder” constitutes an oscilloscope for electromagnetic fields oscillating at visible frequencies,“attosecond tunneling spectroscopy” as well as “attosecond transient absorption” provides real-time insight into the dynamic processes of electronic rearrangements in matter.
Originalspracheenglisch
TitelModern Metrology Concerns
Redakteure/-innenLuigi Cocco
ErscheinungsortRijeka
Herausgeber (Verlag)IntechOpen
Kapitel12
Seiten333-348
Seitenumfang18
ISBN (Print)978-953-51-0584-8
DOIs
PublikationsstatusVeröffentlicht - 16 Mai 2012
Extern publiziertJa

Fields of Expertise

  • Advanced Materials Science

Dies zitieren

Schultze, M., & Kienberger, R. (2012). Attosecond Metrology and Spectroscopy. in L. Cocco (Hrsg.), Modern Metrology Concerns (S. 333-348). Rijeka: IntechOpen. https://doi.org/10.5772/37277

Attosecond Metrology and Spectroscopy. / Schultze, Martin; Kienberger, Reinhard.

Modern Metrology Concerns. Hrsg. / Luigi Cocco. Rijeka : IntechOpen, 2012. S. 333-348.

Publikation: Beitrag in Buch/Bericht/KonferenzbandBeitrag in Buch/BerichtForschungBegutachtung

Schultze, M & Kienberger, R 2012, Attosecond Metrology and Spectroscopy. in L Cocco (Hrsg.), Modern Metrology Concerns. IntechOpen, Rijeka, S. 333-348. https://doi.org/10.5772/37277
Schultze M, Kienberger R. Attosecond Metrology and Spectroscopy. in Cocco L, Hrsg., Modern Metrology Concerns. Rijeka: IntechOpen. 2012. S. 333-348 https://doi.org/10.5772/37277
Schultze, Martin ; Kienberger, Reinhard. / Attosecond Metrology and Spectroscopy. Modern Metrology Concerns. Hrsg. / Luigi Cocco. Rijeka : IntechOpen, 2012. S. 333-348
@inbook{b5a8a0b2b6cb42f8bffb420d50487a14,
title = "Attosecond Metrology and Spectroscopy",
abstract = "Time resolved investigations of electron dynamics in a variety of sample systems as atoms, molecules and solids establish the spearhead of modern ultrafast science. The technology that enables scientists to track and control these processes is referred to as “attosecond metrology” and is associated in symbiosis with ultrashort laser source development.The origin of attosecond metrology is linked to the advent of ultrashort mode locked laser sources-femtosecond lasers, chirped pulse amplification, carrier-envelope-phase stabilization-and the technological aspects of this development that rendered experiments with a temporal resolution of tens of attoseconds possible. The high-order harmonicgeneration process yields laser pulses in the wavelength region around 10 nm with durations below 100 attoseconds, at the same time being the shortest controllable signals. We introduce the different spectroscopic techniques that make use of this unprecedented temporal resolution. While the “attosecond transient recorder” constitutes an oscilloscope for electromagnetic fields oscillating at visible frequencies,“attosecond tunneling spectroscopy” as well as “attosecond transient absorption” provides real-time insight into the dynamic processes of electronic rearrangements in matter.",
author = "Martin Schultze and Reinhard Kienberger",
year = "2012",
month = "5",
day = "16",
doi = "10.5772/37277",
language = "English",
isbn = "978-953-51-0584-8",
pages = "333--348",
editor = "Luigi Cocco",
booktitle = "Modern Metrology Concerns",
publisher = "IntechOpen",

}

TY - CHAP

T1 - Attosecond Metrology and Spectroscopy

AU - Schultze, Martin

AU - Kienberger, Reinhard

PY - 2012/5/16

Y1 - 2012/5/16

N2 - Time resolved investigations of electron dynamics in a variety of sample systems as atoms, molecules and solids establish the spearhead of modern ultrafast science. The technology that enables scientists to track and control these processes is referred to as “attosecond metrology” and is associated in symbiosis with ultrashort laser source development.The origin of attosecond metrology is linked to the advent of ultrashort mode locked laser sources-femtosecond lasers, chirped pulse amplification, carrier-envelope-phase stabilization-and the technological aspects of this development that rendered experiments with a temporal resolution of tens of attoseconds possible. The high-order harmonicgeneration process yields laser pulses in the wavelength region around 10 nm with durations below 100 attoseconds, at the same time being the shortest controllable signals. We introduce the different spectroscopic techniques that make use of this unprecedented temporal resolution. While the “attosecond transient recorder” constitutes an oscilloscope for electromagnetic fields oscillating at visible frequencies,“attosecond tunneling spectroscopy” as well as “attosecond transient absorption” provides real-time insight into the dynamic processes of electronic rearrangements in matter.

AB - Time resolved investigations of electron dynamics in a variety of sample systems as atoms, molecules and solids establish the spearhead of modern ultrafast science. The technology that enables scientists to track and control these processes is referred to as “attosecond metrology” and is associated in symbiosis with ultrashort laser source development.The origin of attosecond metrology is linked to the advent of ultrashort mode locked laser sources-femtosecond lasers, chirped pulse amplification, carrier-envelope-phase stabilization-and the technological aspects of this development that rendered experiments with a temporal resolution of tens of attoseconds possible. The high-order harmonicgeneration process yields laser pulses in the wavelength region around 10 nm with durations below 100 attoseconds, at the same time being the shortest controllable signals. We introduce the different spectroscopic techniques that make use of this unprecedented temporal resolution. While the “attosecond transient recorder” constitutes an oscilloscope for electromagnetic fields oscillating at visible frequencies,“attosecond tunneling spectroscopy” as well as “attosecond transient absorption” provides real-time insight into the dynamic processes of electronic rearrangements in matter.

U2 - 10.5772/37277

DO - 10.5772/37277

M3 - Chapter

SN - 978-953-51-0584-8

SP - 333

EP - 348

BT - Modern Metrology Concerns

A2 - Cocco, Luigi

PB - IntechOpen

CY - Rijeka

ER -