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Main Authors: Attiyah, Danny, Allison, Hunter, Kazansky, Peter, Schmidt, David, Gardner, Christopher, Flores, Victor, Lewis, Joshua, Durfee, Charles, Dollar, Franklin
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2509.16381
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author Attiyah, Danny
Allison, Hunter
Kazansky, Peter
Schmidt, David
Gardner, Christopher
Flores, Victor
Lewis, Joshua
Durfee, Charles
Dollar, Franklin
author_facet Attiyah, Danny
Allison, Hunter
Kazansky, Peter
Schmidt, David
Gardner, Christopher
Flores, Victor
Lewis, Joshua
Durfee, Charles
Dollar, Franklin
contents We present experimental results of high harmonic generation(HHG) driven by a 1300 nm beam in three different polarization states: linear, radial, and azimuthal. We found that the optimal pressure for phasematching was roughly twice as high for the vector beam drivers than the linear driver. We attribute this difference in pressure primarily to the Gouy phase, which differs by a factor of two between the linear and vector polarization states. We demonstrate a target for HHG that produces a uniform pressure profile in the interaction region that is nearly identical to the backing pressure, and preserves the mode of the driving beam. We provide characterization and validation of this technique through flow simulations and experimental measurements.
format Preprint
id arxiv_https___arxiv_org_abs_2509_16381
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Phase matching in Vector Beam Driven High Harmonic Generation with 3D-printed Gas Cells
Attiyah, Danny
Allison, Hunter
Kazansky, Peter
Schmidt, David
Gardner, Christopher
Flores, Victor
Lewis, Joshua
Durfee, Charles
Dollar, Franklin
Optics
We present experimental results of high harmonic generation(HHG) driven by a 1300 nm beam in three different polarization states: linear, radial, and azimuthal. We found that the optimal pressure for phasematching was roughly twice as high for the vector beam drivers than the linear driver. We attribute this difference in pressure primarily to the Gouy phase, which differs by a factor of two between the linear and vector polarization states. We demonstrate a target for HHG that produces a uniform pressure profile in the interaction region that is nearly identical to the backing pressure, and preserves the mode of the driving beam. We provide characterization and validation of this technique through flow simulations and experimental measurements.
title Phase matching in Vector Beam Driven High Harmonic Generation with 3D-printed Gas Cells
topic Optics
url https://arxiv.org/abs/2509.16381