C. Buczek scite author profile

A technique of magnetically stabilizing the position of the plasma column and the resulting inversion region in lower pressure flowing molecular lasers is described.A transverse magnetic field, mutually perpendicular to the discharge axial electric field and the gas flow velocity, is employed to maintain the electrical discharge column parallel with the optic axis. The magnetic stabilization of the discharge is analyzed in terms of the Lorantz forces and the resulting ambipolar drifts of the plasma. A comparison with magnetically stabilized arcs is presented. Supporting experimental data obtained for pure gases and typical laser gas mixtures are given. The operating characteristics of the cross-field CO, laser which employs a premixed gas flow channeled transvarse to the stabilized discharge t o provide convective gas cooling are discussed. The experimental results of a parametric study on the dependence of gain and power output upon gas flow velocities, magnetic field, gas mixtures, and pressure are presented. The operation of the first premixed CW electrically initiated chemical laser has been achieved using cross-field magnetic discharge stabilization. Preliminary operating characteristics of this chemical laser for the 3-p rotational-vibrational transitions in HF and the 4-p transitions in DF are presented.

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Proposed interferometric optical isolator

Skolnick¹,

Buczek²

1970

IEEE J. Quantum Electron.

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An experimental study of unstable confocal CO₂resonators

Freiberg¹,

Chenausky²,

Buczek³

1972

IEEE J. Quantum Electron.

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C. Buczek

Laser injection locking

Hybrid injection locking of higher power CO<inf>2</inf>lasers

Magnetic stabilization of the plasma column in flowing molecular lasers

Proposed interferometric optical isolator

An experimental study of unstable confocal CO₂resonators

Contact Info

Product

Resources

About

C. Buczek

Laser injection locking

Hybrid injection locking of higher power CO&lt;inf&gt;2&lt;/inf&gt;lasers

Magnetic stabilization of the plasma column in flowing molecular lasers

Proposed interferometric optical isolator

An experimental study of unstable confocal CO2resonators

Contact Info

Product

Resources

About

Hybrid injection locking of higher power CO<inf>2</inf>lasers

An experimental study of unstable confocal CO₂resonators