bug-bounty529
xss325
google240
rce213
exploit203
microsoft194
facebook177
malware149
cve141
account-takeover126
bragging-post117
privilege-escalation108
apple105
csrf96
phishing80
writeup80
authentication-bypass80
stored-xss75
browser74
open-source74
reflected-xss63
web-security61
access-control61
ai-agents60
dos59
ssrf58
supply-chain56
reverse-engineering53
input-validation52
lfi51
ctf49
cross-site-scripting49
defi48
smart-contract48
sql-injection47
ethereum45
cloud45
pentest45
cloudflare44
oauth43
race-condition42
information-disclosure41
aws41
api-security40
auth-bypass38
web338
tool37
web-application37
react37
burp-suite37
0
1/10
This study evaluates blue-LIRIC (400-405 nm femtosecond laser) treatment on rabbit corneas, demonstrating that lower repetition rates (8.3 MHz vs 80 MHz) achieve greater optical phase change while avoiding tissue ablation, with collagen denaturation confirmed through histological and TEM analysis.
laser-induced-refractive-index-change
liric
femtosecond-laser
corneal-modification
non-ablative
blue-wavelength
refractive-surgery
optical-phase-change
collagen-denaturation
tissue-engineering
biomedical-optics
Ruiting Huang
Daniel Savage
Kaitlin Wozniak
Len Zheleznyak
Wayne H Knox
Krystel R Huxlin
University of Rochester
Clerio Vision, Inc.
Flaum Eye Institute
Institute of Optics