Thomas Braatz,1 Ekaterina Zapolnova,1 Sebastian Starosielec,1 Ivanka Grguraš,1 Torsten Golz,1 Mark Prandolini,1 Jan Heye Buss,1 Michael Schulz,1 Robert Riedel1
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Active carrier envelope phase (CEP) stabilization in the few-cycle regime is essential for most attosecond experiments, e.g. studying the coherent evolution of electronic structure and dynamics in solids or complex many body phenomena crystals. Here, we present a dual-channel optical parametric chirped-pulse amplifier (OPCPA) design providing CEP stable, sub 9 fs pulses around 800 nm center wavelength as a high-harmonic driver for attosecond experiments. Additionally, a second 1.7 - 2 μm CEP stable outlet is available. Two OPCPA designs (a) high repetition rate and (b) a high pulse-energy system will be demonstrated.
Thomas Braatz,Ekaterina Zapolnova,Sebastian Starosielec,Ivanka Grguraš,Torsten Golz,Mark Prandolini,Jan Heye Buss,Michael Schulz, andRobert Riedel
"1 MHz - dual channel, CEP stable, few-cycle OPCPA at 800nm and >1.7μm wavelength", Proc. SPIE 11670, Nonlinear Frequency Generation and Conversion: Materials and Devices XX, 116700Z (5 March 2021); https://doi.org/10.1117/12.2578873
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Thomas Braatz, Ekaterina Zapolnova, Sebastian Starosielec, Ivanka Grguraš, Torsten Golz, Mark Prandolini, Jan Heye Buss, Michael Schulz, Robert Riedel, "1 MHz - dual channel, CEP stable, few-cycle OPCPA at 800nm and >1.7µm wavelength," Proc. SPIE 11670, Nonlinear Frequency Generation and Conversion: Materials and Devices XX, 116700Z (5 March 2021); https://doi.org/10.1117/12.2578873