about
Microfiber-based Bragg gratings for sensing applications: a review.Bragg gratings in ternary SiO(2):SnO(2):Na(2)O optical glass fibers.Enhanced photosensitivity in germanosilicate fibers exposed to CO2 laser radiation.Broadband single-mode operation of standard optical fibers by using a sub-wavelength optical wire filter.Comparative study of the effective single mode operational bandwidth in sub-wavelength optical wires and conventional single-mode fibers.Highly birefringent silica microfiber.Intensity measurement bend sensors based on periodically tapered soft glass fibers.Tunable, continuous-wave Ti:sapphire channel waveguide lasers written by femtosecond and picosecond laser pulses.Single-mode tunable laser emission in the single-exciton regime from colloidal nanocrystals.Optical microfiber coil resonator refractometric sensor.Low-temperature sensitivity periodically tapered photonic crystal-fiber-based refractometer.Photonic crystal fiber half-taper probe based refractometer.Experimental observation and analysis of all-fiber plasmonic double Airy beams.A Ratiometric Wavelength Measurement Based on a Silicon-on-Insulator Directional Coupler Integrated Device.An embedded optical nanowire loop resonator refractometric sensor.Optical manipulation of microspheres along a subwavelength optical wire.Embedding optical microfiber coil resonators in Teflon.Adiabatically tapered splice for selective excitation of the fundamental mode in a multimode fiber.Mid-IR Supercontinuum Generation From Nonsilica Microstructured Optical FibersNon-silica microstructured optical fibers for mid-IR supercontinuum generation from 2 μm - 5 μmCe3+-doped fibers for remote radiation dosimetryEfficient light confinement with nanostructured optical microfiber tipsDual mode fused optical fiber couplers suitable for mode division multiplexed transmissionSupercontinuum generation in non-silica fibersOptical racetrack ring-resonator based on two U-bent microfibersEmbedded Optical Microfiber Coil Resonator With Enhanced High-$Q$Optical fiber nanowires and microwires: fabrication and applicationsOptical microfiber coupler for broadband single-mode operationOptical Propulsion of Individual and Clustered Microspheres along Sub-Micron Optical WiresCompound-glass optical nanowiresSupercontinuum generation in tapered bismuth silicate fibresUltra-low-loss optical fiber nanotapersMid-infrared Raman sources using spontaneous Raman scattering in germanium core optical fibersPackaged, high-Q, microsphere-resonator-based add–drop filterFiber-tip high-temperature sensor based on multimode interferenceGermanium microsphere high-Q resonatorHigh-sensitivity, evanescent field refractometric sensor based on a tapered, multimode fiber interferenceConical and biconical ultra-high-Q optical-fiber nanowire microcoil resonatorTwo-photon photochemical long-period grating fabrication in pure-fused-silica photonic crystal fiberThe ultimate strength of glass silica nanowires
P50
Q30463419-797CFA44-84A7-4102-9337-2D9BC6B6BA8AQ33309167-3CFDEA3C-6CF3-40A2-B286-64EEC1B213A4Q33309882-13BBF6CA-CD1A-43FA-BAF8-072CE8E05438Q33369799-ECC9DF30-598D-4E16-B771-42B7C607942DQ33505510-B5FD3810-B3FC-412E-B684-4E3D66CF33A6Q33528661-70FA0FC9-89B5-4FC8-AD72-475975963A3DQ33822035-C4A1D9AA-763D-4C47-95F2-A3CE925AC5A1Q34481428-78614637-6362-4994-BFCD-CF98A4D41423Q34969384-66E296CD-F0C8-4320-AA0B-1F72B848684DQ34988341-F17FD4FA-C1BE-41F1-B9FF-76E12DD94E56Q35002855-55DBB062-A860-416F-9018-1BCD82AD916AQ35136188-4366775C-A507-4FEE-9BFF-EF31D5958198Q35218317-277FDB3A-B085-486E-B3BC-CBE671B90F10Q35765558-C1F19196-1D4E-4514-BFDF-09BCACCED8DCQ47653050-1F08CC03-0A97-4FA3-A6CF-5F9A8E27A98AQ50888398-1FBFA36C-25A4-4A56-8B1E-9D27FD00308EQ50945324-BD6DD0D2-09A6-4FB7-9C07-FF98258058F4Q54072790-4DEE3DA8-800C-4AA8-83CC-367176E184D5Q57829126-37F740FA-7A9C-463B-9DAB-E063E6AC5B78Q57829158-B61CEB4D-AF48-4741-A54B-4D0FFA0BCC3DQ59882016-0FDA8513-FA29-4DC7-8C0F-4BD78775F3ACQ60183646-CBC3EB44-CCDA-4BC5-99C4-9FE5BA16204AQ60203311-224B8143-CC23-4583-817C-7D2FCF817AAEQ60203485-31996744-6F08-404E-929A-51C79D2A8DF4Q60203557-BCC9BD3E-CB9F-4112-A59A-9105DA43CBDAQ60203669-C1AA3623-664B-4F94-AC92-0315787D754EQ60203834-FB03AB7A-F019-4037-9A6B-6F10051104AAQ60203841-8DD470B7-CE31-4FAF-BF2A-CEC175BB69D9Q60204017-C68C3181-8647-4CBC-880D-D351161317FEQ60204366-A47D03DB-1B8C-4DC0-B7CF-1785E862C5ADQ60204440-9CE8F4A8-3805-4B9C-9AB0-2ACE61DB6AF3Q60204526-5A3899F9-682F-4159-BB9F-0DA263481703Q60461511-77D6B538-FCE7-4D80-9B13-B4D62B6BB1AEQ61713637-E02186FF-6E41-4A93-ACB7-5FA91F486BDFQ61713675-7F057E02-9CDC-4C18-9BA5-C1F05CD0FCE1Q61713731-E1B4E3DC-1383-459C-B25A-15E2F2363121Q61713758-AF91065C-7FA4-46BB-97E0-2EF8B2E61E6EQ79579949-3654EAFF-26A6-41CF-A13B-0AC4D47098B2Q80176678-DE8038D2-86A4-4647-A72F-3E1F59ECDA27Q83241385-5B7D1105-B87C-4313-8EED-0F7855338772
P50
description
researcher, ORCID id # 0000-0002-5730-0499
@en
wetenschapper
@nl
name
Gilberto Brambilla
@ast
Gilberto Brambilla
@en
Gilberto Brambilla
@es
Gilberto Brambilla
@nl
type
label
Gilberto Brambilla
@ast
Gilberto Brambilla
@en
Gilberto Brambilla
@es
Gilberto Brambilla
@nl
prefLabel
Gilberto Brambilla
@ast
Gilberto Brambilla
@en
Gilberto Brambilla
@es
Gilberto Brambilla
@nl
P106
P31
P496
0000-0002-5730-0499