Suppose a confocal cavity of a He-Ne laser (l =632.8 nm) with length 30 cm. Calculate...

A He-Ne laser emitting at 632.8 nm makes a spot with a radius equal to 100...

A He-Ne laser emitting at 632.8 nm makes a spot with a radius equal to 100 nm at a distance of 500 m from the laser . What is the radius of the beam at the waist ( considering the waist and the laser are in the same plane ?

Consider a He-Ne laser oscillating at the wavelength of λ = 632.8 nm with a Doppler-broadened...

Consider a He-Ne laser oscillating at the wavelength of λ = 632.8 nm with a Doppler-broadened gain linewidth of Δνg = 1.7×109 Hz. (The gain linewidth is the width of the Gaussian distribution of the gain of the laser medium. For gas lasers it is usually determined by Doppler broadening.) Assume that the laser operates with a resonator of length L = 50 cm. Calculate the number of modes in which the laser can emit laser light. Hint: calculate the...

2. Consider a He-Neon laser characterized by the following parameters: Operating wavelength ?? = 632.8 ????,...

2. Consider a He-Neon laser characterized by the following parameters: Operating wavelength ?? = 632.8 ????, tube length ?? = 30 ????, cavity end-mirror reflectance values ??1 = 0.95 and ??2 = 1.00, linewidth ∆?? = 0.8 ??????, Einstein6 −1 coefficient for the lasing transition ??21 = 8 × 10 ?? and loss coefficient ???? = 0.07 ?? . Calculate (a) the threshold gain ????h and (b) the threshold population inversion ∆????h. (c) If the tube diameter is

A red He-Ne laser with a wavelength of 632.8 nm illuminates two narrow horizontal slits with...

A red He-Ne laser with a wavelength of 632.8 nm illuminates two narrow horizontal slits with a gap distance 0.200mm. A pattern of interference bands then appears on a screen 1.00m from the columns. a) How far from the central maximum, in both radians and millimeters on the screen, is first minimum? b) How far in millimeters on the screen, is the fifth maximum from the central maximum? c) What is the intensity of the fifth maximum compared to the...

A red He-Ne laser with a wavelength of 632.8 nm illuminates two narrow horizontal slits with...

A red He-Ne laser with a wavelength of 632.8 nm illuminates two narrow horizontal slits with gap distance 0.200 mm. A pattern of interference bands then appears on a screen 1.00m from the columns. a) How far from the central maximum, in both radians and millimeters on the screen, is first minimum? b) How far in millimeters on the screen, is the fifth maximum from the central maximum? c) How big is the intensity in the fifth maximum compared to...

A red He-Ne laser with a wavelength of 632.8 nm illuminates two narrow horizontal slits gap...

A red He-Ne laser with a wavelength of 632.8 nm illuminates two narrow horizontal slits gap distance 0.200mm A pattern of interference bands then appears on a screen 1.00m from the columns. a) How far from the central maximum, in both radians and millimeters on the screen, is first minimum? b) How far in millimeters on the screen, is the fifth maximum from the central maximum? c) How big is the intensity in the fifth maximum compared to the intensity...

Calculate the useful loss in a laser cavity of length 60 cm, whose mirrors have reflectivity...

Calculate the useful loss in a laser cavity of length 60 cm, whose mirrors have reflectivity 99.9% and 98.5% respectively.

(a) A 633-nm He-Ne laser is incident on a slab of an unknown material. Within the...

(a) A 633-nm He-Ne laser is incident on a slab of an unknown material. Within the slab, the laser’s wavelength is 329nm. Determine whether the substance is most likely zircon or diamond. (b) Suppose a layer of water were placed on top of the slab. Determine the ratio of thickness of the slab versus the water if both materials are to contain the same number of waves.

A He-Ne laser has the following characteristics: (1) A resonator with 97% and 100% mirror reflectances...

A He-Ne laser has the following characteristics: (1) A resonator with 97% and 100% mirror reflectances and negligible internal losses; (2) a Doppler –broadened atomic transition with Doppler linewidth ΔνD = 1.5 GHz; and (3) a small – signal peak gain coefficient γ0(ν0) = 2.5 x 10-3 cm-1 . While the laser is running, the frequencies of its longitudinal modes drift with time as a result of small thermally induced changes in the length of the resonator. Find the allowable...

A pulsed ruby laser emits light at 694.3 nm. For a 15.0-ps pulse containing 2.80 J...

A pulsed ruby laser emits light at 694.3 nm. For a 15.0-ps pulse containing 2.80 J of energy, find the following. (a) the physical length of the pulse as it travels through space mm (b) the number of photons in it photons (c) If the beam has a circular cross section 0.600 cm in diameter, find the number of photons per cubic millimeter. photons/mm3