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Radiation at 488 nmoriginatingfrom a shipboard argon laser
at 1.2 watts(passive) is setThe Argon laser
Introduction of laser in dentistry , in the s , by Miaman,[1ledto a argon laser
the large iridotomiescreatedwith an argon laser
Rockne Krebs and Synclavier II music by Bob Boilen(passive) created byargon laser beams
to a tube current of 7.3 A. A 545 nm dichroic mirror(passive) was setThe Argon laser
to treat the drainage ports inside the eye to allow for faster drainage of fluid(passive) are designedArgon lasers
in 1964(passive) was inventedThe Argon laser
kspah002.html http://www.medicalindiatourism.com/skinalive/lasers/co2-laser.html http://www.scientific-web.com/en/Physics/Laser/CarbonDioxideLaser.html W. BridgesinventedArgon ion laser
with an ARC(passive) is createdAn argon laser
at 488 nm ( excitation(passive) was setThe argon laser
laser lightoriginatesfrom an argon laser
at 30 % power intensity and(passive) was setThe argon laser
at 20 % ( for imaging ) or 80 % ( for imaging and fluorescence photobleaching(passive) was setThe argon laser
APF treatment before or afterresultedargon laser exposure
to 25 % power(passive) was setThe argon laser
to 30 % ( = 19.5 mW(passive) was setargon laser output
at 1.0–2.5 W power(passive) is setThe argon laser
at 10 % of 488 nm(passive) is setthe argon laser
a pulse(passive) was triggered byThe argon laser
Nurse Cheryl Cordeiratriggeredthe argon laser
And way down the line I would lovesettingup an argon laser
the many complicationsresultingfrom argon laser iridotomy
William Bridges(passive) was invented byThe argon laser
at 488 nm and fluorescencesetat 488 nm and fluorescence
to excite at 488 nmsetto excite at 488 nm
at 488 nm with 50 % powersetat 488 nm with 50 % power
at 488 nm for excitation of fluorescein isothiocyanatesetat 488 nm for excitation of fluorescein isothiocyanate
at an emission of 488 nm for excitation of FITCsetat an emission of 488 nm for excitation of FITC
for excitation ( 488 nm ) and emission ( 520 nmsetfor excitation ( 488 nm ) and emission ( 520 nm
at 488 nm ( Spectra Physics 177-G02setat 488 nm ( Spectra Physics 177-G02
at 488 nm to excite the Syto 9 dyesetat 488 nm to excite the Syto 9 dye
to 488 nm for GFP detection or a helium - neon lasersetto 488 nm for GFP detection or a helium - neon laser
at 488 nm ( Beckman Coulter Co. , Miami , FLsetat 488 nm ( Beckman Coulter Co. , Miami , FL
at 488 nm at a power output of 15 mW. Green fluorescence ( GFsetat 488 nm at a power output of 15 mW. Green fluorescence ( GF
to 488 nm with 30 % laser power output and 100 % transmission , until the fluorescence intensity of the region disappearedsetto 488 nm with 30 % laser power output and 100 % transmission , until the fluorescence intensity of the region disappeared
at 488 nm for excitation , a 505- to 525-nm filter for GFP emission , and a 560- to 600-nm filter for PI emissionsetat 488 nm for excitation , a 505- to 525-nm filter for GFP emission , and a 560- to 600-nm filter for PI emission
at 488 nm for excitation , a 505- to 525-nm filter for GFP emission , and a 560- to 600-nm filter for Propidium Iodide ( PI ) emissionsetat 488 nm for excitation , a 505- to 525-nm filter for GFP emission , and a 560- to 600-nm filter for Propidium Iodide ( PI ) emission
to 1 % intensity with a filter combination of 488 nm for excitation and 522 nm for emission to record the green fluorescence and 514 nm for excitation and 585 nm for emission to record the red fluorescencesetto 1 % intensity with a filter combination of 488 nm for excitation and 522 nm for emission to record the green fluorescence and 514 nm for excitation and 585 nm for emission to record the red fluorescence
to 100 % and the 543-setto 100 % and the 543-
at 0.2 %setat 0.2 %
to produce a beam diameter of 50 μm , an output power of 11 watts , and a scanning speed of 100 cm / ssetto produce a beam diameter of 50 μm , an output power of 11 watts , and a scanning speed of 100 cm / s
to 514 nm with 50 % of the laser power output and 100 % of transmissionsetto 514 nm with 50 % of the laser power output and 100 % of transmission
The effect of corticosteroid treatment on blood - retinal barrier breakdown(passive) caused byThe effect of corticosteroid treatment on blood - retinal barrier breakdown
in strong green emissions from two narrow lines at 537 and 558 nmresultedin strong green emissions from two narrow lines at 537 and 558 nm
at 25 % intensity with a 505-nm long - pass filter to visualize Syto9setat 25 % intensity with a 505-nm long - pass filter to visualize Syto9
rhegmatogenous retinal detachment in patients with acute retinal necrosis ( ARN ) syndrometo preventrhegmatogenous retinal detachment in patients with acute retinal necrosis ( ARN ) syndrome
at 20 % power and channeled through an HFT 488/548 main dichroic filter and a BP 505 - 530 filtersetat 20 % power and channeled through an HFT 488/548 main dichroic filter and a BP 505 - 530 filter
for operation on the 514 nm linedesignedfor operation on the 514 nm line
at 514 nm for CY3 excitationsetat 514 nm for CY3 excitation
at 5 % transmission and emission collected using the variable bandpass filter set at 510 nmsetat 5 % transmission and emission collected using the variable bandpass filter set at 510 nm
at 0.1–0.5 % transmission and emission collected using the variable bandpass filter set at 500–550 nmsetat 0.1–0.5 % transmission and emission collected using the variable bandpass filter set at 500–550 nm
at 594 nm for 30 s ( 100 % laser powersetat 594 nm for 30 s ( 100 % laser power
at 20 % of its maximal intensitysetat 20 % of its maximal intensity
leakage of fluid from blood vessels at the back of the eye ( the retina ) or to destroy part of the retina that is encouraging the development of abnormal blood vessels in the eyeto preventleakage of fluid from blood vessels at the back of the eye ( the retina ) or to destroy part of the retina that is encouraging the development of abnormal blood vessels in the eye
physical damage to the trabecular meshwork , ca n't be repeated ad infinitumcausesphysical damage to the trabecular meshwork , ca n't be repeated ad infinitum
at 20 % of 20 % 's maximal intensitysetat 20 % of 20 % 's maximal intensity
an inflammatory reaction that seals retinal tears and leaky blood vessels LASIK : laser to correct errors of refraction by sculpting the cornea Keratoplasty : surgical repair of the cornea Scleral buckle : suture of a silicone band to the sclera over the detached portion of the retina Phacoemulsification : ultrasound to break up lens for aspiration for cataract removal Vitrectomy : removal of vitreous and replacement with a clear solutioncreatesan inflammatory reaction that seals retinal tears and leaky blood vessels LASIK : laser to correct errors of refraction by sculpting the cornea Keratoplasty : surgical repair of the cornea Scleral buckle : suture of a silicone band to the sclera over the detached portion of the retina Phacoemulsification : ultrasound to break up lens for aspiration for cataract removal Vitrectomy : removal of vitreous and replacement with a clear solution
Damage to the Cat Choriocapillaris Caused by Argon Laser Photocoagulation | IOVS | ARVO Journals Damage to the Cat Choriocapillaris(passive) Caused byDamage to the Cat Choriocapillaris Caused by Argon Laser Photocoagulation | IOVS | ARVO Journals Damage to the Cat Choriocapillaris
a communication between the anterior and posterior chamber , which equalizes the pressure between the 2 compartmentsto createa communication between the anterior and posterior chamber , which equalizes the pressure between the 2 compartments
at an average of 10 % ... adjusted progressively downward to avoid saturating signalwas setat an average of 10 % ... adjusted progressively downward to avoid saturating signal
to 514 nm , a 456/514-nm double dichroic beam splitter , and a spectral detector set between 530 and 560 nmsetto 514 nm , a 456/514-nm double dichroic beam splitter , and a spectral detector set between 530 and 560 nm
to 50 % power using an Applied Precision optical sectioning microscope ( 100× 1.65 Apo objective , immersion oil n = 1.78 [ Cargille Laboratories ] ) with softWoRx version 3.3.6 ( Applied Precision , Issaquah , WAsetto 50 % power using an Applied Precision optical sectioning microscope ( 100× 1.65 Apo objective , immersion oil n = 1.78 [ Cargille Laboratories ] ) with softWoRx version 3.3.6 ( Applied Precision , Issaquah , WA
to deliver their energy into the vessels to eliminate areas of narrowing ( i.e. , angioplastydesignedto deliver their energy into the vessels to eliminate areas of narrowing ( i.e. , angioplasty