G. Counsell, P. Coad, and C. Grisolia, Tritium retention in next step devices and the requirements for mitigation and removal techniques, Plasma Phys. Controlled Fusion, vol.48, pp.189-199, 2006.
URL : https://hal.archives-ouvertes.fr/hal-01766408

C. Grisolia, S. Rosanvallon, and P. Coad, JET contributions to ITER technology issues, vol.81, pp.149-154, 2006.

C. Grisolia, G. Counsell, and G. Dinescu, Treatment of ITER plasma facing components: current status and remaining open issues before ITER implementation, Fusion Eng, Des, vol.82, pp.2390-2398, 2007.

T. Loarer, Fuel retention in tokamaks, J. Nucl. Mater, pp.20-28, 2009.

F. Le-guern, F. Brygo, and P. Fichet, Co-deposited layer characterisation and removal control by optical emission spectroscopy coupled to nanosecond laser ablation, Fusion Eng. Des, vol.81, pp.1503-1509, 2006.

A. Semerok, S. V. Fomichev, and J. M. Weulersse, Heating and ablation of tokamak graphite by pulsed nanosecond Nd-YAG lasers, J. Appl. Phys, vol.101, p.84916, 2007.
URL : https://hal.archives-ouvertes.fr/cea-02360134

L. Mercadier, J. Hermann, and C. Grisolia, Plume segregation observed in hydrogen and deuterium containing plasmas produced by laser ablation of carbon fiber tiles from a fusion reactor, Spectrochim, Acta Part B, vol.65, pp.715-720, 2010.

L. Mercadier, A. Semerok, and P. A. Kizub, In-depth analysis of ITER-like samples composition using laser-induced breakdown spectroscopy, J. Nucl. Mater, vol.414, pp.485-491, 2011.
URL : https://hal.archives-ouvertes.fr/hal-01418624

L. Mercadier, J. Hermann, and C. Grisolia, Analysis of deposited layers on plasma facing components by laser-induced breakdown spectroscopy: towards ITER tritium inventory diagnostics, J. Nucl. Mater, vol.415, p.1187, 2011.
URL : https://hal.archives-ouvertes.fr/hal-01418631

A. Semerok, S. V. Fomichev, and F. Brygo, Pulsed repetition rate nanosecond laser heating and ablation of the tokamak graphite tile deposited layers, J. Nucl. Mater, vol.420, pp.198-206, 2012.

L. Mercadier, J. Hermann, and C. Grisolia, Diagnostics of nonuniform plasmas for elemental analysis via laser-induced breakdown spectroscopy: demonstration on carbon-based materials, J. Anal. At. Spectrom, vol.28, pp.1446-1455, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01418562

A. Semerok and C. Grisolia, LIBS for tokamak plasma facing components characterisation: perspectives on in situ tritium cartography, Nucl. Instrum. Methods Phys. Res., Sect. A, vol.720, pp.31-35, 2013.

S. Almaviva, L. Caneve, and F. Colao, Remote-LIBS characterization of ITER-like plasma facing materials, J. Nucl. Mater, vol.421, pp.73-79, 2012.

S. Almaviva, L. Caneve, and F. Colao, Laboratory feasibility study of fusion vessel inner wall chemical analysis by laser induced breakdown spectroscopy, Chem. Phys, vol.398, pp.228-232, 2012.

S. Almaviva, L. Caneve, and F. Colao, Double pulse laser induced breakdown spectroscopy measurements on ITER-like samples, Fusion Eng. Des, pp.848-851, 2015.

S. Almaviva, L. Caneve, and F. Colao, Measurements of deuterium retention and surface elemental composition with double pulse laser induced breakdown spectroscopy, Phys. Scr, vol.167, p.14043, 2016.

V. M. Kozhevin, E. E. Mukhin, and G. T. Razdobarin, Laser induced breakdown spectroscopy technique for in-situ dust detecting in a next-step tokamak, Hydrogen and Helium Recycling at Plasma Facing Materials, vol.54, pp.213-226, 2002.

E. Mukhin, K. Vukolov, and V. Semenov, Progress in the development of deposition prevention and cleaning techniques of in-vessel optics in ITER, Nucl. Fusion, vol.49, p.85032, 2009.

P. Gasior, M. Bieda, and M. Kubkowska, Laser induced breakdown spectroscopy as diagnostics for fuel retention and removal and wall composition in fusion reactors with mixed-material components, Fusion Eng. Des, vol.86, pp.1239-1242, 2011.

G. Shaw, M. Z. Martin, and R. Martin, Preliminary design of laser-induced breakdown spectroscopy for proto-material plasma exposure eXperiment, Rev. Sci. Instrum, vol.85, pp.11-806, 2014.

C. Li, D. Zhao, X. Wu, and H. Ding, Spatial resolution measurements of C, Si and Mo using LIBS for diagnostics of plasma facing materials in a fusion device, Plasma Sci. Technol, vol.17, pp.638-643, 2015.

C. Li, D. Zhao, Z. Hu, X. Wu, G. Luo et al., Characterization of deuterium retention and co-deposition of fuel with lithium on the divertor tile of EAST using laser induced breakdown spectroscopy, J. Nucl. Mater, vol.463, pp.915-918, 2015.

H. J. Van-der-meiden, M. A. Van-den, S. Berg, and . Brons, Laser-based diagnostics applications for plasma-surface interaction studies, J. Instrum, vol.8, p.11011, 2013.

A. Malaquias, V. Philipps, and A. Huber, Development of ITER relevant laser techniques for deposited layer characterisation and tritium inventory, J. Nucl. Mater, vol.438, pp.936-939, 2013.

Q. Xiaoa, A. Huber, and G. Sergienko, Application of laser-induced breakdown spectroscopy for characterization of material deposits and tritium retention in fusion devices, Fusion Eng. Des, vol.88, pp.1813-1817, 2013.

A. Huber, B. Schweer, and V. Philipps, Development of laser-based diagnostics for surface characterisation of wall components in fusion devices, Fusion Eng. Des, vol.86, pp.1336-1340, 2011.

P. Paris, K. Piip, and A. Hakola, Development of laser induced breakdown spectroscopy for studying erosion, deposition, and fuel retention in ASDEX upgrade, Fusion Eng. Des, pp.1349-1352, 2015.

J. Karhunen, A. Hakola, and J. Likonen, Applicability of LIBS for in situ monitoring of deposition and retention on the ITER-like wall of JET -comparison to SIMS, J. Nucl. Mater, vol.463, pp.931-935, 2015.

B. Sallé, J. Lacour, and E. Vors, Laser-induced breakdown spectroscopy for Mars surface analysis: capabilities at stand-off distances and detection of chlorine and sulfur elements, Spectrochim. Acta Part B, vol.59, pp.1413-1422, 2004.

B. Sallé, T. David, and D. A. Cremers, Laser-induced breakdown spectroscopy for space exploration applications: influence of the ambient pressure on the calibration curves prepared from soil and clay samples, Spectrochim. Acta Part B, vol.60, pp.479-490, 2005.

B. Sallé, J. Lacour, and P. Mauchien, Comparative study of different methodologies for quantitative rock analysis by laser-induced breakdown spectroscopy in a simulated Martian atmosphere, Spectrochim. Acta Part B, vol.61, pp.301-313, 2006.

M. Kempenaars, J. C. Flanagan, and L. Giudicotti, Enhancement of the JET edge LIDAR Thomson scattering diagnostic with ultrafast detectors, Rev. Sci. Instrum, vol.79, pp.10-728, 2008.

, NIST database

A. Semerok and P. Mauchien, Ultrashort pulse laser ablation for surface elemental analysis, Rev. Laser Eng, vol.33, pp.5308-5336, 2005.

A. Semerok and C. Dutouquet, Ultrashort double pulse laser ablation of metals, Thin Solid Films, pp.501-505, 2004.

A. Semerok and C. Dutouquet, Analytical performances of laser-induced micro-plasma of Al samples with single and double ultrashort pulses in air and with Ar-jet: a comparative study, Spectrochim. Acta Part B, vol.99, pp.163-171, 2014.
URL : https://hal.archives-ouvertes.fr/ineris-01862453

M. Fabert, L. Gallais, and Y. Pontillon, On-line deformation measurements of nuclear fuel rod cladding using speckle interferometry, Prog. Nucl. Energy, vol.72, pp.44-48, 2014.
URL : https://hal.archives-ouvertes.fr/hal-00854940

E. Tognoni, G. Cristoforetti, and S. Legnaioli, Calibration-free laser-induced breakdown spectroscopy: state of the art, Spectrochim. Acta Part B, vol.65, pp.1-14, 2010.

J. Hermann, A. Lorusso, and A. Perrone, Simulation of emission spectra from nonuniform reactive laser-induced plasmas, Phys. Rev, vol.92, p.53103, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01421073

T. Tanabe, N. Bekris, and P. Coad, Tritium retention of plasma facing components in tokamaks, J. Nucl. Mater, pp.478-490, 2003.

N. Bekris, J. P. Coad, and C. Grisolia, Fusion technology related studies at JET: postmortem tile analysis with MKII-HD geometry, in situ laser detritiation and molecular sieve bed detritiation, J. Nucl. Mater, vol.417, pp.1356-1360, 2011.

J. D. Hey, C. C. Chu, and J. P. Rash, Partial local thermal equilibrium in a low-temperature hydrogen plasma, J. Quant. Spectrosc. Radiat. Transf, vol.62, pp.371-387, 1999.

J. C. Kools, T. S. Baller, S. T. De-zwart, and J. Dieleman, Gas flow dynamics in laser ablation deposition, J. Appl. Phys, vol.71, pp.4547-4556, 1992.

S. I. Anisimov, B. S. Luk'yanchuk, and A. Luches, An analytical model for three-dimensional laser plume expansion into vacuum in hydrodynamic regime, Appl. Surf. Sci, pp.24-32, 1996.

W. Pietsch, A. Petit, and A. Briand, Isotope ratio determination of uranium by optical emission spectroscopy on a laser-produced plasma -basic investigations and analytical results, Spectrochim. Acta Part B, vol.53, pp.75-761, 1998.

X. Ni, K. K. Anoop, and X. Wang, Dynamics of femtosecond laser-produced plasma ions, Appl. Phys. A Mater. Sci. Process, vol.117, pp.111-115, 2014.

A. A. Morozov, Analytical formula for interpretation of time-of-flight distributions for neutral particles under pulsed laser evaporation in vacuum, J. Phys. D. Appl. Phys, vol.48, p.19550, 2015.

C. G. Parigger and E. Oks, Hydrogen Balmer series spectroscopy in laser-induced breakdown plasmas, Int. Rev. At. Mol. Phys, vol.1, pp.13-23, 2010.

A. N. Zaidel, &. , V. K. Prokof'ev, S. M. Raiskii, V. A. Slavnyi et al., Table of Spectral Lines, 1970.

J. D. Hey, C. C. Chu, and E. Hintz, On a heating mechanism for cold hydrogen and deuterium atoms produced at the edge of a tokamak plasma, J. Phys. B Atomic Mol. Phys, vol.32, pp.3555-3573, 1999.

J. D. Hey, M. Korten, and Y. T. Lie, Doppler broadening and magnetic field effects on the Balmer lines emitted at the edge of a tokamak plasma, Contrib. Plasma Phys, vol.36, pp.583-604, 1996.

J. Rosato, V. Kotov, and D. Reiter, Modelling of passive spectroscopy in the ITER divertor: the first hydrogen Balmer lines, J. Phys. B Atomic Mol. Phys, vol.43, p.144024, 2010.

V. N. Rai, A. K. Rai, and F. Yueh, Optical emission from laser-induced breakdown plasma of solid and liquid samples in the presence of a magnetic field, Appl. Opt, vol.42, pp.2085-2093, 2003.

R. Hai, P. Liu, D. Wu, Q. Xiao, L. Sun et al., Effect of steady magnetic field on laserinduced breakdown spectroscopic characterization of EAST-like wall materials, J. Nucl. Mater, vol.463, pp.927-930, 2015.

P. Liu, R. Hai, and D. Wu, The enhanced effect of optical emission from laser induced breakdown spectroscopy of an Al-Li alloy in the presence of magnetic field confinement, Plasma Sci. Technol, vol.17, pp.687-692, 2015.

Q. Xiao, R. Hai, and H. Ding, In-situ analysis of the first wall by laser-induced breakdown spectroscopy in the TEXTOR tokamak: dependence on the magnetic field strength, J. Nucl. Mater, vol.463, pp.911-914, 2015.

A. Semerok and A. Pailloux, CW laser-induced fluorescent spectroscopy of highly magnetized collisionless plasma, Laser Phys, vol.9, pp.244-248, 1999.

A. Semerok, B. Larousse, and A. Pailloux, Optical diagnostics system for measuring SUPER-ERIC plasma parameters, Laser Phys, vol.10, pp.372-377, 2000.