Title :
Attosecond spectroscopy of band-gap dynamics
Author :
Schultze, M. ; Ramasesha, K. ; Bothschafter, E. ; Sommer, A. ; Pemmaraju, C.D. ; Sato, S.A. ; Whitmore, D. ; Gandman, A. ; Prell, J.S. ; Borja, L.J. ; Prendergast, D. ; Yabana, K. ; Neumark, D.M. ; Krausz, F. ; Leone, S.R.
Author_Institution :
Fak. fur Phys., Ludwig-Maximilians-Univ., Garching, Germany
Abstract :
The ability to transfer electrons from valence to conduction band states in a semiconductor is the basis of modern electronics. Here, attosecond spectroscopy is used to resolve this process in real-time. The excitation of electrons across the band-gap of silicon by few-cycle laser pulses is found to induce lasting modifications of the XUV absorbance spectrum in steps synchronized with the laser electric field oscillations, indicative of light-field induced electron tunneling. In contrast, in SiO2, a dielectric with 9 eV band-gap, similar excitation pulses are found to cause a transient field-induced polarizability without lasting population transfer.
Keywords :
conduction bands; elemental semiconductors; energy gap; high-speed optical techniques; silicon; silicon compounds; tunnelling; ultraviolet spectra; valence bands; Si; SiO2; XUV absorbance spectrum; attosecond spectroscopy; band-gap dynamics; conduction band states; electron excitation; electron transfer; excitation pulses; few-cycle laser pulses; laser electric field oscillations; lasting modifications; light-field induced electron tunneling; semiconductor; transient field-induced polarizability; valence band states; Absorption; Electric fields; Photonic band gap; Silicon; Sociology; Spectroscopy; Transient analysis;
Conference_Titel :
Lasers and Electro-Optics (CLEO), 2015 Conference on
Conference_Location :
San Jose, CA
