Algunas de las publicaciones más relevantes del LALFI

LIBS

Composition and possible provenance of metallic archaeological objects found in Patagonia Argentina. María M. Morita, Leandro Zilio y Gabriel M. Bilmes. Journal of Archaeological Science: Reports 33, 102575 (2020).
https://doi.org/10.1016/j.jasrep.2020.102575

LIBS determination of toxic metals in fresh fish. L. Ponce, M. Sosa Saldaña,T. Flores, F. Alvira, G. M. Bilmes. Applied Optics. Vol. 55, No. 2. pp. 254-258. ISSN 1559-128X. (2016).
https://doi.org/10.1364/AO.55.000254

LIBSs quality control and origin identification of hand made manufactured cigars. F. C. Alvira, G. M. Bilmes, T. Flores, L. Ponce. Applied Spectroscopy, (ISSN 0003-7028). Volume 69, Number 10, pp.1205-1209. (2015).
https://doi.org/10.1366/15-07935

Application of Laser-Induced Breakdowm Spectoscopy and Neural Network to Olive Oils Analysis. Marcos-Martinez, Daniel; Del Valle, Marcos; Alvira, Fernando; Bilmes, Gabriel; Manuel de Villena, Fco Javier; Caceres, Jorge. Applied Spectroscopy ISSN 0003-7028. Vol. 67, Issue 9, pp. 1064-1072. (2013).
https://doi.org/10.1366/12-06916

Libs analysis and laser cleaning of metal objects rescued from the corvette h.m.s. Swift. Gabriel M. Bilmes, Fernando C. Alvira, Natalia Perez Zoloza, Alberto A. Orsetti in LACONA IX Proceedings. Archetype Publications Ltd. Fitzroy Square, London 2012. SW1H)JJ. ISBN: 978-1-904982-87-6. pp. 179-181. (2012).
https://revistacubanadefisica.org/index.php/rcf/article/view/RCF_27-1_80_2010

A new method for relative Sr determination in human teeth enamel. F. C. Alvira, F. Ramirez Rozzi, G. A. Torchia, L. Roso, G. M. Bilmes. Journal of Anthropological Sciences. Vol. 89, pp. 1-12. (2011).
http://www.isita-org.com/jass/Contents/2011vol89/e-pub/21757792.pdf

Time resolving imaging spectroscopy applied to the analysis of plasmas generated by pulsed lasers. F C Alvira, L Ponce, M Arronte and G M Bilmes. Journal of Physics: Conference Series 274, 012085. (2011).
http://iopscience.iop.org/1742-6596/274/1/012085.2010

Laser-Induced Breakdown Spectroscopy Microanalysis of Trace Elements in Homo sapiens Teeth. F. C. Alvira, F. Ramirez Rozzi and G. M. Bilmes. Applied Spectroscopy 64 (3) ISSN 0003-7028. pp. 313-319, (2010).
https://www.osapublishing.org/as/abstract.cfm?URI=as-64-3-313

Surface Treatment Analyses of Car Bearings by Using Laser-Induced Breakdown Spectroscopy. F. C. Alvira, D. J. O. Orzi and G. M. Bilmes. Applied Spectroscopy 63 (2) ISSN 0003-7028. pp. 192-198, (2009).
https://www.osapublishing.org/as/abstract.cfm?URI=as-63-2-192

Laser Induced Breakdown Spectroscopy of Prickly Pear’sSpines and Glochids: A qualitative analysis. Flores T., Ponce L., Bilmes G., Arronte A. Alvira F. Proceedings of the VI Iberoamerican Conference on Optics(RIAO) and IX Latinamerican meeting on Optics, Lasers and Applications(OPTILAS). Americcan Institute of Physics. AIP Conference Proceedings Volume 992. ISBN: 978-0-7354-0511-0. (2008).
https://doi.org/10.1063/1.2926833

Identification and Measurement of Dirt Composition of Manufactured Steel Plates by Using Laser-Induced Breakdown Spectroscopy. D.J.O. Orzi and G. M. Bilmes. Applied Spectroscopy 58 (12) ISSN 0003-7028. (2004).
https://www.osapublishing.org/as/abstract.cfm?URI=as-58-12-1475

FOTOACÚSTICA

Enhancement of photoacoustic detection of inhomogeneities in polymers. P. Grondona, H. O. Di Rocco, D. I. Iriarte, J. A. Pomarico, H. F. Ranea-Sandoval and G. M. Bilmes. Papers in Physics Vol 5 (2013). ISSN 1852-4249. (2013).
DOI: 10.4279/PIP.050005

Determination of femtosecond ablation thresholds by using Laser Ablation Induced Photoacoustics (LAIP). Daniel J. O. Orzi, Fernando C. Alvira and Gabriel M. Bilmes. Applied Physics A 110 (3). VOLUME I: “Mechanisms, Models and Experiments”. Guest-Editors: M. Garcia, I. Zergioti, L. Zhigilei, E. Haro-Poniatowski. pp. 735-739. (2013).
https://doi.org/10.1007/s00339-012-7230-x

Natural and laser-induced cavitation in corn stems: on the mechanisms of acoustic emissions. Esteban Fernández, Roberto J. Fernández, Gabriel M. Bilmes. Papers in Physics, vol. 4, art. 040003, ISSN 1852-4249, pp. 1-8. (2012).
DOI: 10.4279/PIP.040003

Characterization of reference standards for dirt by Laser Ablation Induced Photoacoustics (LAIP). D. J. O. Orzi, E. N. Morel, J. R. Torga, A.N. Roviglione and G. M. Bilmes. Journal of Physics: Conference Series (JPCS) Volume 214, 2010. ISSN 1742-6588 (Print) ISSN 1742-6596 (Online). (2010).
http://www.iop.org/EJ/conf. 2010.

A real time method for surface cleanliness measurement. G. M. Bilmes, D. J. O. Orzi, O. E. Martínez, A. Lencina. Applied Physics B. 82, 643. (2006).
DOI: 10.1007/S00340-005-2096-7

New method for real time surface cleanliness measurement. G. M. Bilmes, D. J. O. Orzi, O. E. Martínez, A. Lencina. Optical Measurement Systems for Industrial Inspection IV, edited by Wolfgang Osten, Christophe Gorecki, Erik Novak, Proc. of SPIE Vol. 5856 (SPIE, Bellingham, WA, 2005) 0277-786X/05/$15 · doi: 10.1117/12.612664. pp. 980-986. (2005).
https://doi.org/10.1117/12.612664

LIMPIEZA CON LÁSER

Laser Cleaning applied to metal, wooden and plaster objects. Maria M. Morita, Gabriel M. Bilmes. Proccedings APLAR 6. Aplicazioni laser nel restauro. A. Brunetto, G. Lanterna, B. Mazzei Ed. ISBN: 978-88-404-0090-7. pp. 553-559. (2019).

High efficiencies for laser cleaning of glassware irradiated from the back: application to glassware historical objects. Bilmes, G.M., Vallejo, J., Vera, C.C. et al. Appl. Phys. A (2018) 124, 4, 347. ISSN: 0947-8396 (Print) 1432-0630 (Online) (2018).
https://doi.org/10.1007/s00339-018-1761-8.

Dirt Reference Standard for surface cleanliness measurements. D.J. Orzi and G. M. Bilmes. Applied Physics A 122:770.2016. (2016).
https://digital.cic.gba.gob.ar/handle/11746/5854

Laser cleaning of 19th century papers and manuscripts assisted by digital image processing. G. M. Bilmes, C. M. Freisztav, N. Cap, H. Rabal. A.Orsetti. Lasers in the Conservation of Artworks, Castillejo et all. (EDS). Taylor & Francis Group, London, ISBN 978-0-415-47596-9, pp. 361-365, (2008).
DOI:10.1201/9780203882085.CH57

Cleaning and characterization of objects of cultural value by laser ablation. G.M. Bilmes, C. Freisztava, D.Schinca, A.Orsetti. Optical Methods for Arts and Archaeology. Edited by Salimbeni, Renzo; Pezzati, Luca. Proceedings of the SPIE, Volume 5857, pp. 19-25. (2005).
http://sedici.unlp.edu.ar/handle/10915/44492

FOTOFÍSICA

In situ Fluorescence Microscopy of Photothermal Therapy with Silver Nanoplates in HeLa cells. María Belén Rivas Ailello, Julio C. Azcárate, Eugenia Zelaya, Pedro David Gara, Gabriela N. Bosio, Thomas Gensch and Daniel O. Mártire. Biomaterials Science, 9: 2608–2619. (2021).
https://doi.org/10.1039/D0BM01952F

Remediation of a soil chronically contaminated with hydrocarbons through persulfate oxidation and bioremediation. Medina, Rocío; David Gara, Pedro Maximiliano; Fernández- González. Antonio José; Rosso, Janina Alejandra; Del Panno, María Teresa. Science of the Total Environment, 618: 518–530. (2018).
https://doi.org/10.1016/j.scitotenv.2017.10.326

Solvent Effects on the Photophysical Properties of Bu₄N[(4,4´-bpy)Re(CO)₃(bpy-5,5′-diCOO)] Complex. A Combined Experimental and Computational Study. Martinez Saavedra, Hector H.; Ragone, Fabricio; Franca, Carlos A.; Ruiz, Gustavo T.; David Gara, Pedro M.; Wolcan, Ezequiel. Journal of Organometallics Chemistry, 817: 29-35. (2016).
https://doi.org/10.1016/j.jorganchem.2016.05.012

Photophysical and photochemical behavior of new acridine(1,8) dione dyes. Rafael Cabanzo Hernández, Pedro M. David Gara, Daniel Molina Velasco, Rosa Erra-Balsells and Gabriel M. Bilmes. Photochemical and Photobiological Sciences. 12, pp. 1968-1975. (2013).
DOI:10.1039/c3pp50159k

Photoacoustic and luminescence characterization of nitrogen heterocyclic aromatic. UV-MALDI matrices in solution. Gabriela Petroselli, Rosa Erra-Balsells, Pedro David Gara, Gabriel M. Bilmes. Photochemical and. Photobiological. Sciences, 11 (6), pp. 1062-1068. (2012).
https://doi.org/10.1039/C2PP05388H

Comparative photophysical investigation of oxygen and sulfur as covalent linkers on octaalkylamino substituted zinc(II) phthalocyanines. Cristian Alejandro Strassert, Gabriel Mario Bilmes, Josefina Awruch and Lelia Elina. Dicelio. Photochemical and Photobioogical Science, 7, pp. 738-747. (2008).
https://doi.org/10.1039/B802709A

The photophysics of nitrocarbazoles used as UV-MALDI matrices. Comparative spectroscopic and optoacoustic studies of mononitro- and dinitrocarbazoles. Sergio M. Bonesia, Mariana Mesarosb, Franco M. Cabrerizoa, María A. Poncea, Gabriel M. Bilmesb and Rosa Erra-Balsellsa. Chemical Physics Letters 446, pp. 49-55. (2007).
https://doi.org/10.1016/j.cplett.2007.08.015

The photophysics of some UV-MALDI matrices studied by using spectroscopic, photoacoustic and luminescence techniques. Mariana Mesaros, Olga I. Tarzi, Rosa Erra-Balsells, Gabriel M. Bilmes. Chemical Physics Letters. 426 (4-6), 334. (2006).
https://doi.org/10.1016/j.cplett.2006.06.030

IMÁGENES 3D Y REALIDADES MIXTAS

New photogrammetric systems for easy low-cost 3D digitization of cultural heritage. Mercedes Morita; Daniel Alejandro Loaiza Carvajal; Gabriel Mario Bilmes. En: In: D’Amico S., Venuti V. (eds) Handbook of Cultural Heritage Analysis. Springer, Cham. (2022)
https://doi.org/10.1007/978-3-030-60016-7_49 S

Virtual museums. Captured reality and 3D modeling. Daniel Alejandro Loaiza Carvajal; Mercedes Morita; Gabriel Bilmes. Journal of Cultural Heritage, Volume 45, September–October 2020, Pages 234-239. (2020).
https://doi.org/10.1016/j.culher.2020.04.013

Estudio histórico y recreación virtual 3D del Panteón de los Ciudadanos Meritorios -Cementerio de la Recoleta- de Carlo Zucchi. Marcela Andruchow; Mercedes Morita; Amalia Delucchi. Estudios Del hábitat, 18(1), 082. (2020).
https://doi.org/10.24215/24226483082

Rubens’ painting as inspiration of a later tapestry: non-invasive analyses provide insight into artworks’ history. Alice Dal Fovo, Jana Striova, Enrico Pampaloni, Annamaria Fedeli, Mercedes Morita, Dafne Amaya, Francesco Grazzi, Marta Cimò, Claudia Cirrincione, Raffaella Fontana. Microchemical Journal, Volume 153, March 2020, 104472, ISSN 0026-265X. (2020).
https://doi.org/10.1016/j.microc.2019.104472

Reflectance transformation imaging. First applications in cultural heritage in Argentina. Mercedes Morita; Florencia Novoa; Gabriel Bilmes. Journal of Archaeological Science: Reports. Elservier Ltd. Vol 26. (2019).
http://dx.doi.org/10.1016/j.jasrep.2019.101899

3D imaging system for the digitization of the Argentine museums collections. Mercedes Morita; Gabriel M. Bilmes. Kermes – Restauro, conservazione e tutela del patrimonio culturale. ISSN: 1122-3197. LEXIS Compagnia Editoriale in Torino srl. Numero 107. 2018. pp. 45-49. (2018).

Applications of low-cost 3D imaging techniques for the documentation of heritage objects. Mercedes Morita; Gabriel M. Bilmes. Optica Pura y Aplicada. 51 (2) 50026:1-11 (2018).
http://doi.org/10.7149/OPA.51.2.50026

Photonic methods applied to heritage conservation in Argentina. Mercedes Morita; Gabriel M. Bilmes. International Journal of Conservation Science 8, 4, 2017: 663-674. (2017).
http://ijcs.ro/public/IJCS-17-63_Morita.pdf

Registro en 3 dimensiones de bienes culturales. Aplicaciones al arte contemporáneo. Mercedes Morita. Tesis de doctorado. Facultad de Bellas Artes, Universidad Nacional de La Plata. Marzo, (2017).
http://sedici.unlp.edu.ar/handle/10915/59257

PATENTES

1- Tipo: Patente de Invención 22804.
Título: Método de limpieza de superficie de láminas de materiales trasparentes en la zona visible e infrarroja del espectro empleando un láser que incide a través de la lámina. Inventores: Luis Ponce Cabrera, Teresa Flores Reyes, Miguel Arronte García, Gabriel M. Bilmes. Certificado de Registro Nro: 22804 Res.569/2002. B08B 13/12. Fecha: 24-2-99. País: CUBA. Titular/es del Registro: Universidad de La Habana-CUBA.

2-  Tipo: Patente de Invención 19990106271
Título: Método para la determinación de suciedad en superficies. Inventores: Gabriel M. Bilmes y Oscar E. Martínez. Registro Nro: AR025280A1. Acta No P19990106271. País: Argentina Fecha de publicación; 20/11/2002. Fecha de resolución: 23-06-06. Fecha de vencimiento: 09-12-2019. Titular/es del Registro: CONICET-CIC-UNLP-UBA.

3- Tipo: Patente de invención AR024857A1.
Título: Equipo láser para la medición de suciedad en chapas de acero. Inventores: Gabriel M. Bilmes y Oscar E. Martínez Registro Nro: AR024857A1. País: Argentina Fecha de publicación: 30/10/2002. Titular/es del Registro: CONICET-CIC-UNLP-UBA- FUDETEC-SIDERAR.

4- Tipo: Patente de invención US 20010037671
Título: Laser Apparatus for measuring dirt density on steel plates. Inventores: G. M. Bilmes y O. E. Martínez. País de registro: EEUU (Pat: 6.546.784). Publication Number: US 20010037671 Fecha publicación: 8-11-2001. Fecha de vencimiento: 15-4-2021. Titular/es del Registro: CONICET-CIC-UNLP-UBA- FUDETEC-SIDERAR. Bibliographic data: US 2001037671 (A1) 2001-11-08.

5- Tipo: Modelo de Utilidad M 990106740
Título: Instrumento láser mejorado. Inventores: G. M. Bilmes, N. Bolognini, M. Gallardo, J. O. Tocho y M. Trivi Registro Nro.: M 990106740. Fecha: 23-12-99. País: Argentina. Acta: 19990106740. Fecha publicación: 4-9-2002. Fecha vencimiento: 23-12-2009 Titular/es del Registro: Centro de Investigaciones Ópticas (CIOP).

6- Tipo: Modelo de Utilidad M000100244
Título: Equipo de óptica portátil didáctico. Inventores: D. Aljanati, G. M. Bilmes, N. Bolognini, M. Gallardo, E. Dicovskiy, J. O. Tocho y M. Trivi. Registro Nro.: M000100244. Fecha: 7-1-2000. Acta 2000010244. Fecha Publicación 4-9-2002 fecha vencimiento: 7-1-2010 País: Argentina. Titularidad del Registro: MCyEN-CIOp.

7-Tipo: Patente de Invención P20100103922.
Titulo: Método y aparato para la medición de suciedad de superficies mediante ablación láser y detección óptica. Inventores: Ulises Crossa Archiropoli, Gabriel M. Bilmes y Oscar E. Martinez. Registro Nro: P20100103922. Fecha presentación: 25/10/2010. País: Argentina. Fecha de publicación: 30-11-2011 Fecha vencimiento: 25-10-2030. Titular/es del Registro: TOLKET -CONICET-CIC-UNLP.