More Like this

1. Sub-two-cycle gigawatt-peak-power LWIR OPA for ultrafast nonlinear spectroscopy of condensed state materials

   https://doi.org/10.1364/OL.500550  

   Leshchenko, Vyacheslav; Li, Sha; Agostini, Pierre; DiMauro, Louis F. (September 2023, Optics Letters)

   The application of high-power, few-cycle, long-wave infrared (LWIR, 8–20 µm) pulses in strong-field physics is largely unexplored due to the lack of suitable sources. However, the generation of intense pulses with >6 µm wavelength range is becoming increasingly feasible with the recent advances in high-power ultrashort lasers in the middle-infrared range that can serve as a pump for optical parametric amplifiers (OPA). Here we experimentally demonstrate the feasibility of this approach by building an OPA pumped at 2.4 µm that generates 93 µJ pulses at 9.5 µm, 1 kHz repetition rate with sub-two-cycle pulse duration, 1.6 GW peak power, and excellent beam quality. The results open a wide range of applications in attosecond physics (especially for studies of condensed phase samples), remote sensing, and biophotonics. 

   more » « less
2. Efficient generation of femtosecond millijoule pulses at 3.1 µm

   https://doi.org/10.1364/OL.474741  

   Zhou, Fangjie; Wu, Yi; Marra, Alphonse; Chang, Zenghu (January 2022, Optics Letters)

   3.2-mJ, 92-fs pulses centered at 3.1 µm are generated at a 1-kHz repetition rate through a tabletop optical parametric chirped pulse amplification (OPCPA) system based on ZnGeP 2 crystals. Pumped by a 2-µm chirped pulse amplifier with a flat-top beam profile, the amplifier achieves a 16.5% overall efficiency, which, to the best of our knowledge, is the highest efficiency achieved by OPCPA at this wavelength. Harmonics up to the seventh order are observed after focusing the output in the air. 

   more » « less
3. Serial macromolecular crystallography at ALBA Synchrotron Light Source

   https://doi.org/10.1107/s1600577522002508  

   Martin-Garcia, Jose M; Botha, Sabine; Hu, Hao; Jernigan, Rebecca; Castellví, Albert; Lisova, Stella; Gil, Fernando; Calisto, Barbara; Crespo, Isidro; Roy-Chowdhury, Shatabdi; et al (May 2022, Journal of Synchrotron Radiation)

   The increase in successful adaptations of serial crystallography at synchrotron radiation sources continues. To date, the number of serial synchrotron crystallography (SSX) experiments has grown exponentially, with over 40 experiments reported so far. In this work, we report the first SSX experiments with viscous jets conducted at ALBA beamline BL13-XALOC. Small crystals (15–30 µm) of five soluble proteins (lysozyme, proteinase K, phycocyanin, insulin and α-spectrin-SH3 domain) were suspended in lipidic cubic phase (LCP) and delivered to the X-ray beam with a high-viscosity injector developed at Arizona State University. Complete data sets were collected from all proteins and their high-resolution structures determined. The high quality of the diffraction data collected from all five samples, and the lack of specific radiation damage in the structures obtained in this study, confirm that the current capabilities at the beamline enables atomic resolution determination of protein structures from microcrystals as small as 15 µm using viscous jets at room temperature. Thus, BL13-XALOC can provide a feasible alternative to X-ray free-electron lasers when determining snapshots of macromolecular structures. 

   more » « less
4. Gain-induced Kerr beam cleaning in a femtosecond fiber amplifier

   https://doi.org/10.1364/JOSAB.492262  

   Haig, Henry; Bender, Nicholas; Chen, Yi-Hao; Dhar, Anirban; Choudhury, Nilotpal; Sen, Ranjan; Christodoulides, Demetrios N.; Wise, Frank (January 2023, Journal of the Optical Society of America B)

   Kerr beam cleaning is a nonlinear phenomenon in graded-index multimode fiber where power flows toward the fundamental mode, generating bell-shaped output beams. Here we study beam cleaning of femtosecond pulses accompanied by gain in a multimode fiber amplifier. Mode-resolved energy measurements and numerical simulations showed that the amplifier generates beams with high fundamental mode content (greater than 30% of the overall pulse energy) for a wide range of amplification levels. Control experiments using stretched pulses that evolve without strong Kerr nonlinear effects showed a degrading beam profile, in contrast to nonlinear beam cleaning. Temporal measurements showed that seed pulse parameters have a strong effect on the amplified pulse quality. These results may influence the design of future high-performance fiber lasers and amplifiers. 

   more » « less
5. Growth of tin-free germanium carbon alloys using carbon tetrabromide (CBr4)

   https://doi.org/10.1063/5.0172330  

   Reza, Md Shamim; Dey, Tuhin; Arbogast, Augustus W; Muhowski, Aaron J; Holtz, Mark W; Stephenson, Chad A; Bank, Seth R; Wasserman, Daniel; Wistey, Mark A (November 2023, Journal of Applied Physics)

   Direct bandgap group IV materials could provide intimate integration of lasers, amplifiers, and compact modulators within complementary metal–oxide–semiconductor for smaller, active silicon photonics. Dilute germanium carbides (GeC) with ∼1 at. % C offer a direct bandgap and strong optical emission, but energetic carbon sources such as plasmas and e-beam evaporation produce defective materials. In this work, we used CBr4 as a low-damage source of carbon in molecular beam epitaxy of tin-free GeC, with smooth surfaces and narrow x-ray diffraction peaks. Raman spectroscopy showed substitutional incorporation of C and no detectable sp2 bonding from amorphous or graphitic carbon, even without surfactants. Photoluminescence shows strong emission compared with Ge. 

   more » « less