Gigahertz repetition rate, sub-femtosecond timing jitter optical pulse train directly generated from a mode-locked Yb: KYW laser
We show that a 1.13 GHz repetition rate optical pulse train with 0.70 fs high-frequency timing
jitter (integration bandwidth of 17.5 kHz–10 MHz, where the measurement instrument-limited …
jitter (integration bandwidth of 17.5 kHz–10 MHz, where the measurement instrument-limited …
Gigahertz repetition rate, sub-femtosecond timing jitter optical pulse train directly generated from a mode-locked Yb: KYW laser
H Yang, H Kim, J Shin, C Kim, SY Choi… - OPTICS …, 2014 - koasas.kaist.ac.kr
We show that a 1.13 GHz repetition rate optical pulse train with 0.70 fs high-frequency timing
jitter (integration bandwidth of 17.5 kHz-10 MHz, where the measurement instrument-limited …
jitter (integration bandwidth of 17.5 kHz-10 MHz, where the measurement instrument-limited …
[PDF][PDF] Gigahertz repetition rate, sub-femtosecond timing jitter optical pulse train directly generated from a mode-locked Yb: KYW laser
H Yang, H Kim, J Shin, C Kim, SY Choi, GH Kim… - scholar.archive.org
We show that a 1.13-GHz repetition rate optical pulse train with 0.70 fs high-frequency timing
jitter (integration bandwidth of 17.5 kHz–10 MHz, where the measurement instrument-limited …
jitter (integration bandwidth of 17.5 kHz–10 MHz, where the measurement instrument-limited …
Gigahertz repetition rate, sub-femtosecond timing jitter optical pulse train directly generated from a mode-locked Yb: KYW laser
H Yang, H Kim, J Shin, C Kim, SY Choi, GH Kim… - Optics Letters, 2014 - pure.kaist.ac.kr
We show that a 1.13 GHz repetition rate optical pulse train with 0.70 fs high-frequency timing
jitter (integration bandwidth of 17.5 kHz-10 MHz, where the measurement instrument-limited …
jitter (integration bandwidth of 17.5 kHz-10 MHz, where the measurement instrument-limited …
[PDF][PDF] Gigahertz repetition rate, sub-femtosecond timing jitter optical pulse train directly generated from a mode-locked Yb: KYW laser
H Yang, H Kim, J Shin, C Kim, SY Choi, GH Kim… - researchgate.net
We show that a 1.13-GHz repetition rate optical pulse train with 0.70 fs high-frequency timing
jitter (integration bandwidth of 17.5 kHz–10 MHz, where the measurement instrument-limited …
jitter (integration bandwidth of 17.5 kHz–10 MHz, where the measurement instrument-limited …
Gigahertz repetition rate, sub-femtosecond timing jitter optical pulse train directly generated from a mode-locked Yb: KYW laser
H Yang, H Kim, J Shin, C Kim, SY Choi… - Optics …, 2014 - pubmed.ncbi.nlm.nih.gov
We show that a 1.13 GHz repetition rate optical pulse train with 0.70 fs high-frequency timing
jitter (integration bandwidth of 17.5 kHz-10 MHz, where the measurement instrument-limited …
jitter (integration bandwidth of 17.5 kHz-10 MHz, where the measurement instrument-limited …
Gigahertz repetition rate, sub-femtosecond timing jitter optical pulse train directly generated from a mode-locked Yb: KYW laser.
H Yang, H Kim, J Shin, C Kim, SY Choi, GH Kim… - Optics Letters, 2014 - europepmc.org
We show that a 1.13 GHz repetition rate optical pulse train with 0.70 fs high-frequency timing
jitter (integration bandwidth of 17.5 kHz-10 MHz, where the measurement instrument-limited …
jitter (integration bandwidth of 17.5 kHz-10 MHz, where the measurement instrument-limited …
Gigahertz repetition rate, sub-femtosecond timing jitter optical pulse train directly generated from a mode-locked Yb: KYW laser
H Yang, H Kim, J Shin, C Kim, SY Choi… - Optics …, 2014 - ui.adsabs.harvard.edu
Abstract We show that a 1.13-GHz repetition rate optical pulse train with 0.70 fs high-
frequency timing jitter (integration bandwidth of 17.5 kHz-10 MHz, where the measurement …
frequency timing jitter (integration bandwidth of 17.5 kHz-10 MHz, where the measurement …
Gigahertz repetition rate, sub-femtosecond timing jitter optical pulse train directly generated from a mode-locked Yb: KYW laser
H Yang, H Kim, J Shin, C Kim, SY Choi, GH Kim… - Opt. Lett., 2014 - inspirehep.net
We show that a 1.13-GHz repetition rate optical pulse train with 0.70 fs high-frequency timing
jitter (integration bandwidth of 17.5 kHz-10 MHz, where the measurement instrument-limited …
jitter (integration bandwidth of 17.5 kHz-10 MHz, where the measurement instrument-limited …
Gigahertz repetition rate, sub-femtosecond timing jitter optical pulse train directly generated from a mode-locked Yb: KYW laser
H Yang, H Kim, J Shin, C Kim, SY Choi, GH Kim… - arXiv preprint arXiv …, 2013 - arxiv.org
We show that a 1.13-GHz repetition rate optical pulse train with 0.70 fs high-frequency timing
jitter (integration bandwidth of 17.5 kHz-10 MHz, where the measurement instrument-limited …
jitter (integration bandwidth of 17.5 kHz-10 MHz, where the measurement instrument-limited …