研发
在Futonics,我们每年都会投入大量资源进行研究与开发,以推动新产品和新应用的诞生,确保我们的客户始终能够获得最先进的技术。我们对创新的执着,巩固了我们在行业中的领先地位,并使我们能够为客户的特定需求量身定制解决方案。这些项目体现了我们不断努力,始终站在技术创新的前沿,致力于为未来打造可持续的解决方案。
我们诚邀您与我们联系,如果您的团队有新的应用或创意。我们可以携手开发创新的解决方案,拓展激光技术的边界。您的愿景就是我们的动力!
当前正在进行的研究项目:
WeLASER
Home
DigiWeed:
在该项目中开发的解决方案可以称为“数字化杂草控制”。该解决方案基于快速的图像处理和通过神经网络与光学反馈系统实现的图像识别。项目的一个重要组成部分是将人工智能(神经网络)与智能光学技术结合起来,使整个识别过程更加快速和精准。
通过正在研究的系统,首次有可能在作物1厘米范围内的杂草进行自动化、精准的分离处理,从而在杂草的生长中心进行有效破坏。从数字化的角度来看,这相当于对杂草的“1”进行处理,而作物则不受影响,相当于“0”。这一解决方案与传统的化学除草方法有根本性的不同,后者会使作物和杂草都暴露在有毒物质中。新方案在大规模、节能的应用中几乎可以实现100%的杂草控制效果,这在此前只有使用除草剂才能达到。
特别是,只有通过基于激光的方法,才能实现“真正的杂草控制数字化”。其他方法,如热水或等离子技术,精度过低(在等离子技术中,电流可能通过根部传导到作物)。尽管“数字化杂草控制”这一概念并不新鲜,但之前仅通过CO2激光和不成熟的图像识别技术进行了研究,因此这一概念至今尚未取得任何工业上重要的突破。2微米的激光器作为真正突破性的工具,在此领域有突破性的创新应用。
SPITZE:
通过创新泵浦技术实现2微米波长QCW光纤激光器的千瓦峰值功率
SPITZE项目旨在开发一款具有1千瓦峰值功率和150瓦平均功率的铥光纤激光器。这些高功率水平即使在高脉冲频率下也能够实现,同时保持出色的光束质量。结合灵活调节脉冲时间形状的能力,这有望显著加快肾结石的碎裂速度,同时将因反冲导致的结石不必要移动的风险降到最低。对结石去除过程中基础过程的研究将有助于优化用于碎石术的激光参数。
Decomp:
千瓦级准连续脉冲掺铥光纤激光器开发
出版和发表文章
A. Seddon, B. Napier, I. Lindsay, S. Lamrini, P.M. Moselund, N. Stone, O. Bangg, and M. Farriesh, “Prospective on using fibre mid-infrared supercontinuum laser sources for in vivo spectral discrimination of disease”, Analyst, Vol. 143, Issue 24, pp. 5874-5887 (2018).
X. Mateos, P. Loiko, S. Lamrini, K. Scholle, P. Fuhrberg, S. Suomalainen, A. Härkönen, M. Guina, S. Vatnik, I. Vedin, M. Aguiló, F. Díaz, Y. Wang, U. Griebner, and V. Petrov, “Highly efficient Ho:KY(WO4)2 thin-disk lasers at 2.06 µm”, Proc. SPIE 10713, Pacific-Rim Laser Damage 2018: Optical Materials for High-Power Lasers, 107130J (16 May 2018).
K. Scholle, M. Schäfer, S. Lamrini, M. Wysmolek, M. Steinke, J. Neumann, P. Fuhrberg, “All-fiber linearly polarized high power 2-μm single mode Tm-fiber laser for plastic processing and Ho-laser pumping applications”, Proc. SPIE 10512, Fiber Lasers XV: Technology and Systems, 105120O (26 February 2018).
L. Sójka, L. Pajewski, M. Popenda, E. Beres-Pawlik, S. Lamrini, K. Markowski, T. Osuch, T. M. Benson, A. B. Seddon, and S. Sujecki, “Experimental Investigation of Mid-Infrared Laser Action From Dy3+ Doped Fluorozirconate Fiber”, in IEEE Photonics Technology Letters, Vol. 30, Issue 12, pp. 1083-1086 (2018).
X. Mateos, P. Loiko, S. Lamrini, K. Scholle, P. Fuhrberg, S. Suomalainen, A. Härkönen, M. Guina, S. Vatnik, I. Vedin, M. Aguiló, F. Díaz, Y. Wang, U. Griebner, and V. Petrov, “Ho:KY(WO4)2 thin-disk laser passively Q-switched by a GaSb-based SESAM”, Opt. Express 26, 9011-9016 (2018).
X. Mateos, P. Loiko, S. Lamrini, K. Scholle, P. Fuhrberg, S. Vatnik, I. Vedin, M. Aguiló, F. Díaz, U. Griebner, and V. Petrov, “Thermo-optic effects in Ho:KY(WO4)2 thin-disk lasers”, Opt. Mater. Express 8, 684-690 (2018).
P. Holl, M. Rattunde, S. Adler, K. Scholle, S. Lamrini, P. Fuhrberg, E. Diwo-Emmer, R. Aidam, W. Bronner, J. Wagner, “GaSb-based VECSEL for high-power applications and Ho-pumping”, Proc. SPIE 10087, Vertical External Cavity Surface Emitting Lasers (VECSELs) VII, 1008705 (2017).
X. Mateos, P. Loiko, S. Lamrini, K. Scholle, P. Fuhrberg, S. Vatnik, I. Vedin, M. Aguiló, F. Díaz, U. Griebner, and V. Petrov, “Power Scaling and Thermo-Optics of Ho:KY(WO4)2 Thin-Disk Lasers: Effect of Ho3+ Concentration”, in Laser Congress 2017 (ASSL, LAC), OSA Technical Digest (online) (Optical Society of America, 2017), paper AM3A.3.
X. Mateos, S Lamrini, K. Scholle, P. Fuhrberg, S. Vatnik, P. Loiko, I. Vedin, M. Aguiló, F. Díaz, U. Griebner, and V. Petrov, “Holmium thin-disk laser based on Ho:KY(WO4)2/KY(WO4)2 epitaxy with 60% slope efficiency and simplified pump geometry”, Opt. Lett. 42, 3490-3493 (2017).
K. Scholle, S. Lamrini, S. Adler, P. Holl, E. Diwo-Emmer, M. Rattunde, and P. Fuhrberg, “Compact 2.1 µm Q-switched Ho:YAG Laser Intra-cavity Pumped by a 2 µm OPSDL”, in 2017 European Conference on Lasers and Electro-Optics and European Quantum Electronics Conference, (Optical Society of America, 2017), paper CA_5_4.
X. Mateos, S. Lamrini, K. Scholle, P. Fuhrberg, S. Vatnik, P. Loiko, M. Aguiló, F. Díaz, U. Griebner, and V. Petrov, “Holmium thin-disk laser at 2056 nm based on Ho:KYW/KYW epitaxy”, 2017 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC), Munich, 2017, paper CA_1_1.
A. B. Seddon, T. M. Benson, S. Sujecki, N. Abdel-Moneim, Z. Tang, D. Furniss, L. Sojka, N. Stone, N. Jayakrupakar, G. R. Lloyd, I. Lindsay, J. Ward, M. Farries, P. M. Moselund, B. Napier, S. Lamrini, U. Møller, I. Kubat, C. R. Petersen, and O. Bang, “Towards the mid-infrared optical biopsy”, Proc. SPIE 9703, Optical Biopsy XIV: Toward Real-Time Spectroscopic Imaging and Diagnosis, 970302, (2016).
S. Yilmaz, C. Ottenhues, T. Theeg, S. Lamrini, K. Scholle, M. Schäfer, P. Fuhrberg, H. Sayinc, F. Ö. Ilday, J. Neumann, L. Overmeyer, and D. Kracht, “Single-mode spectral beam combining of high power Tm-doped fiber lasers with WDM cascades”, Proc. SPIE 9728, Fiber Lasers XIII: Technology, Systems, and Applications, 97280O, (2016).
A. B. Seddon, B. Napier, I. Lindsay, S. Lamrini, P. M. Moselund, N. Stone, and O. Bang, “Mid-infrared Spectroscopy/Bioimaging: Moving toward MIR optical biopsy”, Laser Focus World, Vol 52, Issue 2, p. 50-53, (2016).
L. Sójka, D. Furniss, T. Zhuoqi, H. Sakr, E. R. Barney, T. M. Benson, A. B. Seddon, S. Sujecki, K. Scholle, S. Lamrini, P. Fuhrberg, “Numerical modeling of lathanide-ion doped fibre lasers operating within mid-infrared wavelength region”, in 18th International Conference on Transparent Optical Networks (ICTON), (2016).
K. Scholle, S. Lamrini, S. Adler, P. Holl, E. Diwo, M. Rattunde, and P. Fuhrberg, “SDL In-band Pumped Q-switched 2.1 µm Ho:YAG Laser”, in Conference on Lasers and Electro-Optics, OSA Technical Digest (2016) (Optical Society of America, 2016), paper STu4M.2, (2016).
H. S. Sayinc, K. Hausmann, C. Ottenhues, O. Isik, M. Steinke, S. S. Yilmaz, S. Lamrini, J. Neumann, F. Ö. Ilday, and D. Kracht, “All-fiber Combining Concepts in the Wavelength Range Around 2 µm”, in Frontiers in Optics 2016, OSA Technical Digest (online) (Optical Society of America, 2016), paper FW5B.7, (2016).
P. Holl, M. Rattunde, S. Adler, S. Kaspar, W. Bronner, A. Bächle, R. Aidam, J. Wagner, K. Scholle, S. Lamrini, and P. Fuhrberg, “GaSb-based 2µm Semiconductor Disk Laser: Power scaling for optical pumping of Ho:YAG”, in 2015 European Conference on Lasers and Electro-Optics – European Quantum Electronics Conference, (Optical Society of America, 2015), paper CB_P_7, (2015).
A. Oladeji, A. Phillips, S. Lamrini, K. Scholle, P. Fuhrberg, A. B. Seddon, T. M. Benson, and S. Sujecki, “Design of erbium doped double clad ZBLAN Fibre laser”, in J. Phys.: Conf. Ser. 619, (2015).
S. Sujecki, A. Oladeji, T. M. Benson, A. B. Seddon, K. Scholle, S. Lamrini, and P. Fuhrberg, “Numerical modelling of erbium (III) doped Q-switched fibre lasers”, in 17th International Conference on Transparent Optical Networks (ICTON), (2015).
S. Yilmaz, C. Ottenhues, M. Wysmolek, T. Theeg, S. Lamrini, C. Scholle, P. Fuhrberg, H. Sayinc, F. Ö. Ilday, J. Neumann, L. Overmeyer, and D. Kracht, “All-Fiber, Single-Mode Spectral Beam Combining of High Power Tm-Doped Fiber Lasers”, in Advanced Solid State Lasers, OSA Technical Digest (online) (Optical Society of America, 2015), paper AW4A.4, (2015).
S. Sujecki, A. Oladeji, A. Phillips, A. B. Seddon, T. M. Benson, H. Sakr, Z. Tang, E. Barney, D. Furniss, Ł. Sójka, E. Bereś-Pawlik, K. Scholle, S. Lamrini, and P. Fuhrberg, “Theoretical study of population inversion in active doped MIR chalcogenide glass fibre lasers (invited)”, in Quant Electron 47, 1389 (2015).
S. Lamrini, K. Scholle, M. Schäfer, J. Ward, M. Francis, M. Farries, S. Sujecki, T. Benson, A. Seddon, A. Oladeji, B. Napier, and P. Fuhrberg, “High-Energy Q-switched Er:ZBLAN Fibre Laser at 2.79 µm”, in 2015 European Conference on Lasers and Electro-Optics – European Quantum Electronics Conference, (Optical Society of America, 2015), paper CJ_7_2, (2015).
I. Kubat, C. S. Agger, U. Møller, A. B. Seddon, Z. Tang, S. Sujecki, T. M. Benson, D. Furniss, S. Lamrini, K. Scholle, P. Fuhrberg, B. Napier, M. Farries, J. Ward, P. M. Moselund, and O. Bang, “Mid-infrared supercontinuum generation to 12.5μm in large NA chalcogenide step-index fibres pumped at 4.5μm”, Opt. Express 22, 19169-19182, (2014).
S. Sujecki, A. Oladeji, L. Sojka, A. Phillips, A. B. Seddon, T. M. Benson, H. Sakr, Z. Tang, D. Furniss, K. Scholle, S. Lamrini, and P. Fuhrberg, “Modelling and design of MIR chalcogenide glass fibre lasers (invited)”, in 14th International Conference on Numerical Simulation of Optoelectronic Devices, (2014).
C. Agger, I. Kubat, U. Møller, P. M. Moselund, C. Petersen, B. Napier, A. Seddon, S. Sujecki, T. Benson, M. Farries, J. Ward, S. Lamrini, K. Scholle, P. Fuhrberg, and O. Bang, “Numerical demonstration of 3-12µm supercontinuum generation in large-core step-index chalcogenide fibers pumped at 4.5µm”, in Nonlinear Optics, B. Boulanger, S. Cundiff, M. Kauranen, and W. Knox, eds., OSA Technical Digest (online) (Optical Society of America, 2013), paper NW4A.09, (2013).
K. Scholle, S. Lamrini, F. Gatzemeier, P. Koopmann, and P. Fuhrberg, “In-band diode pumped high power Ho:YLF laser”, in Proceedings of CLEO Europe – EQEC 2011, Paper #CA_3_4, (2011).
S. Lamrini, P. Koopmann, K. Scholle, and P. Fuhrberg, “Q-switched Ho:Lu2O3 laser at 2.12 μm”, Opt. Lett. 38, 1948-1950 (2013).
P. Koopmann, S. Lamrini, K. Scholle, M Schäfer, P. Fuhrberg, and G. Huber, “Holmium-doped Lu2O3, Y2O3, and Sc2O3 for lasers above 2.1 µm”, in Optics Express 21, 3926-3931 (2013).
P. Koopmann, S. Lamrini, K. Scholle, C. Kränkel, P. Fuhrberg, and G. Huber, “Holmium-Doped Lutetia: A Novel Diode Pumped Laser at 2124 nm”, in Proceedings of Advances in Optical Materials 2012, # IW5D.4 (2012).
S. Lamrini, P. Koopmann, M. Schäfer, K. Scholle, and P. Fuhrberg, “Directly diode-pumped high-energy Ho:YAG oscillator”, in Optics Letters 37, 515-517 (2012).
S. Lamrini, P. Koopmann, K. Scholle, P. Fuhrberg, and G. Huber, “Diode Pumped Q-switched Ho:Lu2O3 Laser at 2.12 µm”, in Conference on Lasers and Electro-Optics, OSA Technical Digest (CD) (Optical Society of America, 2012), paper CTu2D.1 (2012).
P. Koopmann, S. Lamrini, K. Scholle, M. Schäfer, P. Fuhrberg, and G. Huber, “Multi-watt laser operation and laser parameters of Ho-doped Lu2O3 at 2.12 μm”, Optical Materials Express 1, 1447-1456 (2011).
P. Koopmann, S. Lamrini, K. Scholle, P. Fuhrberg, K. Petermann, and G. Huber, “Efficient diode-pumped laser operation of Tm:Lu2O3 around 2 μm”, Optics Letters 36, 948-950 (2011).
K. Scholle, S. Lamrini, P. Koopmann, M. Schäfer, J. Thomas, C. Voigtländer, S. Nolte, and P. Fuhrberg, “High Power Wavelength Stabilized Tm-Fibre Laser with FBG Written into the Core of the Active Fibre”, in Proceedings of CLEO Europe – EQEC 2011, # CJ8.3 (2011).
S. Lamrini, P. Koopmann, M. Schäfer, K. Scholle, P. Fuhrberg, K. Petermann, and G. Huber, “Efficient Laser Operation of Ho:Lu2O3 at Room Temperature”, in Proceedings of CLEO Europe – EQEC 2011, # CA1.6 (2011).
P. Koopmann, S. Lamrini, K. Scholle, P. Fuhrberg, K. Petermann, and G. Huber, “Laser Operation and Spectroscopic Investigations of Tm:LuScO3”, in Proceedings of CLEO Europe – EQEC 2011, # CA1.4 (2011).
P. Koopmann, S. Lamrini, K. Scholle, P. Fuhrberg, K. Petermann, and G. Huber, “Long Wavelength Laser Operation of Tm:Sc2O3 at 2116 nm and Beyond”, in Proceedings of Advanced Solid State Photonics 2011, # ATuA5 (2011).
M. Schellhorn, P. Koopmann, K. Scholle, P. Fuhrberg, K. Petermann, and G. Huber, “Diode-pumped Tm:Lu2O3 thin disk laser”, in Advances in Optical Materials, OSA Technical Digest (CD), paper ATuB14 (2011).
S. Lamrini, P. Koopmann, M. Schäfer, K. Scholle, and P. Fuhrberg, “Efficient high-power Ho:YAG laser directly in-band pumped by a GaSb-based laser diode stack at 1.9 μm”, in Appl. Phys. B 106:315 (2011).
S. Lamrini, M. Hofmann, K. Scholle, P. Koopmann, and P. Fuhrberg, “Compact High-Power Ho:YAG MOPA in-Band Pumped by Laser Diode Stacks at 1.9 micron”, in Proceedings of EPS-QEOD Europhoton Conference 2010, # WeC5 (2010).
P. Koopmann, S. Lamrini, K. Scholle, P. Fuhrberg, K. Petermann, and G. Huber, “Laser Operation at 2 micron and Thermal Conductivity of Thulium Doped Lutetia”, in Proceedings of EPS-QEOD Europhoton Conference 2010, # WeP2 (2010).
P. Koopmann, S. Lamrini, K. Scholle, P. Fuhrberg, K. Petermann, and G. Huber, “High Power Diode Pumped 2 μm Laser Operation of Tm:Lu2O3”, in Proceedings of CLEO/QUELS 2010, # CMDD1 (2010).
K. Scholle, S. Lamrini, P. Koopmann, P. Fuhrberg, in Frontiers in Guided Wave Optics and Optoelectronics (InTech, Vukovar, 2010), pp. 471–500.
S. Lamrini, P. Koopmann, K. Scholle, P. Fuhrberg, and M. Hofmann, “High-Power Ho:YAG Laser in-band Pumped by Laser Diodes at 1.9 μm and Wavelength-Stabilized by a Volume Bragg Grating”, in Proceedings of Advanced Solid State Photonics 2010, # AMB13 (2010).
K. Scholle, S. Lamrini, P. Koopmann, and P. Fuhrberg, “2 µm Laser Sources and Their Possible Applications”, in Book: Frontiers in Guided Wave Optics and Optoelectronics (2010).
K. Scholle, S. Lamrini, P. Fuhrberg, M. Rattunde, J. Wagner, “Wavelength Stabilization and Mode Selection of a GaSb-based Semiconductor Disk Laser at 2 µm Using a Volume Bragg Grating”, in Proceedings of CLEO Europe – EQEC 2009, #CB7_4 (2009).
K. Scholle and P. Fuhrberg, “In-Band Pumping of High-Power Ho:YAG Lasers by Laser Diodes at 1.9µm”, in Conference on Lasers and Electro-Optics/Quantum Electronics and Laser Science Conference and Photonic Applications Systems Technologies, OSA Technical Digest (CD), paper CTuAA1 (2008).
K. Scholle, E. Heumann, and G. Huber, “Single mode Tm and Tm,Ho:LuAG lasers for LIDAR applications”, in Appl. Phys. Lett. Vol 1, Issue 6, pp. 285-290 (2004).
U. H. Jacobs, K. Scholle, E. Heumann, and G. Huber, “Room-temperature external cavity GaSb-based diode laser around 2.13μm”, in Appl. Phys. Lett. 85, 5825 (2004).