Post-compression of femtosecond laser pulses using self-phase modulation: from kilowatts to petawatts in 40 years
EA Khazanov - Quantum Electronics, 2022 - iopscience.iop.org
The pulse duration at the output of femtosecond lasers is usually close to the Fourier limit,
and can be shortened by increasing the spectral width. To this end, use is made of self …
and can be shortened by increasing the spectral width. To this end, use is made of self …
eXawatt center for extreme light studies
E Khazanov, A Shaykin, I Kostyukov… - High Power Laser …, 2023 - cambridge.org
The eXawatt Center for Extreme Light Studies project aimed to create a large scientific
infrastructure based on lasers with giant peak power. The project relies on the significant …
infrastructure based on lasers with giant peak power. The project relies on the significant …
Компрессия фемтосекундных лазерных импульсов с помощью фазовой самомодуляции: за 40 лет от киловатт до петаватт
ЕА Хазанов - Квантовая электроника, 2022 - mathnet.ru
Длительность импульса на выходе фемтосекундных лазеров обычно близка к фурье-
пределу, и для его укорочения необходимо увеличить ширину спектра. Для этого при …
пределу, и для его укорочения необходимо увеличить ширину спектра. Для этого при …
Permanent-magnet Faraday isolator with the field intensity of more than 3 tesla
EA Mironov, AV Voitovich, OV Palashov - Laser Physics Letters, 2019 - iopscience.iop.org
A permanent-magnet system with a maximum magnetic field exceeding 3 T, which is a
record value for Faraday isolators, has been created. The magnitude of the field in the …
record value for Faraday isolators, has been created. The magnitude of the field in the …
Compressing High Energy Lasers through Optical Polymer Films
The thin-film post-compression technique has the ability to reduce the pulse duration in PW-
class lasers, increasing the peak power. Here, the nonlinear response of an increasingly …
class lasers, increasing the peak power. Here, the nonlinear response of an increasingly …
Temporal compression of high-power IR laser pulses in a KDP crystal
SY Mironov, IB Mukhin, VV Lozhkarev, AK Potemkin… - Applied Optics, 2022 - opg.optica.org
It is shown that a KDP crystal can be used for temporal compression of powerful pulses of
the near-IR range. A method of searching for laser beam and crystal parameters suitable for …
the near-IR range. A method of searching for laser beam and crystal parameters suitable for …
XCELS–Международный центр исследований экстремальных световых полей
ЕА Хазанов, АА Шайкин, ИЮ Костюков… - Квантовая …, 2023 - mathnet.ru
Описан проект XCELS (еXawatt Center for Extreme Light Studies), целью которого
является создание крупной научной инфраструктуры на основе источников лазерного …
является создание крупной научной инфраструктуры на основе источников лазерного …
Enhancing the time contrast and power of femtosecond laser pulses by an optical wedge with cubic nonlinearity
EA Khazanov - Quantum Electronics, 2021 - iopscience.iop.org
A method is proposed for enhancing the time-domain contrast of femtosecond laser pulses
under nonlinear pulse compression by means of spectrum broadening due to the self-phase …
under nonlinear pulse compression by means of spectrum broadening due to the self-phase …
Self‐Compression of Ultrahigh‐Peak‐Power Lasers
R Chen, W Liang, Y Xu, X Shen… - Laser & Photonics …, 2024 - Wiley Online Library
Pulse self‐compression can offer a more compact and efficient solution for improving the
peak power of ultraintense laser pulses. By solving a modified nonlinear Schrödinger …
peak power of ultraintense laser pulses. By solving a modified nonlinear Schrödinger …
Dependence on Laser Pulse Duration of the Maximum Energy of Protons Accelerated by Intense “Slow Light”
AV Brantov, VY Bychenkov - Plasma Physics Reports, 2022 - Springer
Three-dimensional numerical simulations were used to study the dependence of maximum
energy of ions (protons) accelerated from low-density targets on the duration of the …
energy of ions (protons) accelerated from low-density targets on the duration of the …