Ruby laser

About: Ruby laser is a research topic. Over the lifetime, 2474 publications have been published within this topic receiving 38933 citations. The topic is also known as: corundum laser & ruby rod.

Selective Mitochondrial Damage by a Ruby Laser Microbeam: An Electron Microscopic Study

Abstract: A pulsed ruby laser microbeam produces changes in single living cells stained with a low concentration of Janus green B. Electron micrographs show that such alterations are the result of morphological damage sustained by and restricted to the mitochondria in the irradiated area.

IMAGE CONVERSION FROM 1.6 μ TO THE VISIBLE IN LITHIUM NIOBATE

Abstract: Image information at 1.6 μ has been converted to the green by mixing it with highly collimated ruby laser radiation in lithium niobate. About 50 lines resolution has been achieved, limited only by the laser beam quality. A tenfold increase on this should be attainable with a single transverse mode laser.

Arsenic diffusion in silicon melted by high‐power nanosecond laser pulsing

Abstract: The time evolution of temperature and melting in amorphous silicon layers laser irradiated was calculated numerically. Experiments were performed in Si crystals implanted with 400‐keV As to a dose of 5×1015/cm2 and illuminated with 50‐ns‐duration Q‐switched ruby laser pulse in the energy range 1.0–3.0 J/cm2. Comparison between experimental and calculated results allows a quantitative understanding of the amorphous–to–single‐crystal transition. A good agreement was found between the experimental As profiles after laser irradiation and those calculated with a diffusion coefficient of 10−4 cm2/s for As in liquid silicon.

Clinical and Histological Responses of Congenital Melanocytic Nevi After Single Treatment With Q-Switched Lasers

Abstract: Background: Laser irradiation of congenital melanocytic nevi is a controversial treatment. Recurrence of lesions after laser treatment appears to be the rule, and the effects of laser irradiation on cellular biological behavior and the possible mutagenic responses of nevomelanocytes that have received nonlethal doses of irradiation are still unclear. Without treatment, there is an increased potential for malignant degeneration over a lifetime. The purpose of this study was to examine the effects of Q-switched lasers on congenital nevi and to explain the mechanism(s) behind the response of the nevi to laser treatment. Five congenital nevi were divided into 3 equal parts: 1 part was treated with the Q-switched ruby laser at a wavelength of 694 nm, 1 part was treated with the Q-switched neodymium:YAG laser at a wavelength of 1064 nm, and 1 part was left untreated to serve as control. At intervals ranging from 3 days to 3 months after laser irradiation, the lesions were excised and evaluated by routine staining. This clinical study was conducted entirely at the Massachusetts General Hospital Dermatology Laser Center, Boston, Mass. Observations: Both the superficial and the deep protions of the congenital melanocytic nevi were affected by the 2 lasers, as evidenced by macroscopic inspection as well as microscopic evaluation. However, the Q-switched laser treatment did not destroy all nevomelanocytes, particularly in the deeper, less pigmented portions of the lesions. Conclusions: Both the Q-switched ruby laser and the neodymium:YAG laser often removed only the superficial portion of the congenital melanocytic nevi. The Q-switched ruby laser (694 nm) appeared to be more effective in removing nevomelanocytes than the Q-switched neodymium:YAG laser (1064 nm). Arch Dermatol. 1997;133:349-353