Papers in Conference
Proceedings (internationally cited)
1. I.Oshina,
J.Spigulis, "3D-representation of skin malformations using
spectral line imaging and modified Beer-Lambert law", Proc. SPIE 12665,
126650T (2023). https://doi.org/10.1117/12.2687959.
2. J.Spigulis, E.Kviesis-Kipge,
U.Rubins, I.Oshina, M.Mileiko, “RGB laser-illuminated spectral imaging: applications
in dermatology and endoscopy”, Proc.IFMBE, v.89, pp.
138-144 (2023). https://doi.org/10.1007/978-3-031-37132-5_18.
3.
I.Oshina, J.Spigulis, “Potential of the
Beer–Lambert law for skin chromophore mapping from diffuse reflectance
images”, Optics InfoBase Conference Papers: ECBO 2021, ETu2A.27 (2021). https://www.osapublishing.org/viewmedia.cfm?uri=ECBO-2021-ETu2A.27.
4.
M.Bürmen, P.Naglič, J.Spigulis, “Comparison of in-vivo
measured optical path length distribution of backscattered light in human skin
and time-resolved Monte Carlo simulations”, Optics InfoBase Conference
Papers: ECBO 2021, ETu2A.15 (2021). https://www.osapublishing.org/abstract.cfm?uri=ECBO-2021-ETu2A.15.
5.
M.Bürmen, P.Naglič, J.Spigulis, “Comparison of in-vivo measured optical path
length distribution of backscattered light in human skin and time-resolved
Monte Carlo simulations”, Optics InfoBase Conference Papers: ECBO
2021, ETu2A.15 (2021). https://www.osapublishing.org/abstract.cfm?uri=ECBO-2021-ETu2A.15.; Proc. SPIE 11920, 119201V (2021).
doi:10.1117/12.2615424.
6. J.Spigulis, V.Lukinsone,
I.Oshina, E.Kviesis-Kipge, M.Tamosiunas, A.Lihachev, "Riga Group’s
recent results on laser applications for skin diagnostics", J.Phys.:
Conf. Ser. 1859, 012033 (2021). https://iopscience.iop.org/article/10.1088/1742-6596/1859/1/012033.
7. J.Spigulis,
V.Lukinsone, U.Rubins, A.Maslobojeva, M.Kuzminskis, “Skin-remitted photon path
lengths: Experimental study”, in Biomedical Optics 2020, OSA
Technical Digest, paper JW3A.1 (2020). https://www.osapublishing.org/abstract.cfm?URI=Microscopy-2020-JW3A.1
8.
J.Spigulis, I.Kuzmina, I.Lihacova, V.Lukinsone, B.Cugmas,
A.Grabovskis, E.Kviesis-Kipge, A.Lihachev, “Biophotonics
research in Riga: recent projects and results”, Proc.SPIE 11585, 1158502 (2020).
9.
B.Cugmas, D.Viškere, E.Štruc, J.Spigulis, "Selection
of erythema index and image sampling method for the objective erythema
estimation in dogs with atopic dermatitis", Proc. SPIE 11585,
115850E (2020); https://doi.org/10.1117/12.2581997.
10. E.Borisova, T.Genova, V.Mircheva, P.Troyanova, I.Bratchenko, L.Bratchenko,Y.Khristoforova, V.Zakharov, I.Lihacova, A.Lihachev, J.Spigulis, "Multispectral
fluorescence detection of pigmented cutaneous tumours", Proc. SPIE 11585,
1158504 (2020); https://doi.org/10.1117/12.2581967.
11. J.Spigulis, I.Kuzmina,
V.Lukinsone, M.Tamošiūnas, I.Oshina, L.Ozolina, A.Maslobojeva,
M.Kuzminskis, D.Ivanov, E.Borisova, “Towards combined multispectral, FLIM and
Raman imaging for skin diagnostics”, Proc.SPIE 11232,
112320N-1 (2020).
12. J.Spigulis, Z.Rupenheits,
M.Matulenko, I.Oshina,U.Rubins, “A snapshot multi-wavelengths imaging device
for in-vivo skin diagnostics”, Proc.SPIE 11232,
112320I-1 (2020).
13. Z.Marcinkevics,
D.Briljonoks, H.Kronberga, J.Spigulis, “LED-bed therapy of cardiovascular
disorders: a volunteer study”, Proc.SPIE 11221, 112210R
(2020).
14. I.Kuzmina, V.Lukinsone, U.Rubins, I.Osina,
L.Dambite, A.Maslobojeva, J.Spigulis, “Agar-based phantoms for skin
diagnostic imaging”, Proc. SPIE 11363,
113630F (2020). doi: 10.1117/12.2555674.
15. 10.V. Lukinsone, I.
Kuzmina, M. Tamosiunas, A. Maslobojeva,M. Kuzminskis, U.
Rubins, J. Spigulis, “Remitted photon path length in human skin, skin phantoms
and cell cultures”, Proc. SPIE 11363,
1136320 (2020). doi: 10.1117/12.2555822.
16. 11.E.Borisova, D.Ivanov, B.Kolev, T.Genova, V.Mircheva, S.Ilyov, L.Zaharieva,
I.Lihachova, A.Lihachovs, J.Spigulis, P.Troyanova,
"Autofluorescence spectroscopy of cutaneous neoplasia under ultraviolet, visible
and near infrared excitation", Proc. SPIE 11363,
113630Z (2020); https://doi.org/10.1117/12.2555982.
17. 12.J.Spigulis, I.Oshina,
M.Matulenko, “Laser illumination designs for snapshot multi-spectral-line imaging”
, IEEE Xplore, https://ieeexplore.ieee.org/document/8872998 (2019).
18. J.Spigulis, I.Oshina, P.Potapovs,
K. Lauberts, “Snapshot multi-spectral-line imaging for applications in
dermatology and forensics”, Proc.SPIE, 10881, 1088139
(2019).
19. V. Lukinsone, M. Osis, J.
Latvels, I. Kuzmina, U. Rubins, N. Zorina, A.Maslobojeva, J. Spigulis,
"Towards direct measurements of remitted photon path lengths in skin:
kinetic studies in the range 520-800 nm", Proc. SPIE 11075,
1107505 (2019).
20. V.Lukinsone, R.Veilande,
E.V.Plorina, I.Kuzmina, D.Bliznuks, K.Boločko, A.Derjabo, I.Lihacova,
J.Spigulis, “Multispectral and autofluorescence RGB imaging for skin
cancer diagnostics”, Proc.SPIE 11065, 110650A (2019).
21. M.Lange, N.Kiss, L.Fesus,
E.V. Plorina, A.Derjabo, J.Spigulis, “Non-invasive LED-based screening solution
for skin cancer“, Proc.SPIE 11073, 11073-17 (2019).
22. A.Sdobnov, A.Bykov, A.Popov,
I.Lihacova, A.Lihachev, J.Spigulis, I.Meglinski, “Combined multi-wavelength
laser speckle contrast imaging and diffuse reflectance imaging for skin
perfusion assessment”, Proc. SPIE 11075, 110751F
(2019).
23. B.Cugmas, J.Spigulis,
“Clinical evaluation of automated capillary refill time estimation in dogs and
cats”, Proc.SPIE 10868, 10868-1N (2019).
24. B.Cugmas, J.Spigulis,
“Biophotonics in veterinary medicine: the first steps toward clinical
translation”, Proc.SPIE 10885, 10885-20 (2019).
25. I.Oshina,
P.Potapovs, J.Spigulis, “Spectral imaging system for money counterfeit detection”, OSA
Technical Digest, ITu3B.3, https://doi.org/10.1364/ISA.2019.ITu3B.3 (2019).
26. J.Spigulis, A.Lihachev,
V.Lukinsone, M.Osis, I.Oshina, “Lasers for in-vivo skin
diagnostics: some recent developments”, Proc. SPIE 11047,
1104703 (2019).
27. E.Borisova, A.Gisbrecht, T.Genova-Hristova,
P.Troyanova, E.Pavlova, N.Penkov, I.Bratchenko, V.Zakharov, I.Lihachova,
I.Kuzmina, J.Spigulis, "Multispectral autoflourescence detection of skin
neoplasia using steady-state techniques," Proc. SPIE 11047,
1104704 (2019. ).
28. M.Lange,
E.V.Plorina, A.Derjabo, I.ihacova, I.Osina, D.Bliznuks, J.Spigulis, “Evaluating the aging of
the scars after cancer removal by using multispectral diagnostic device”, Biomedical Optics Congress 2018, OSA
Technical Digest, JTh3A.7, https://doi.org/10.1364/TRANSLATIONAL.2018.JTh3A.7 (2018).
29. B.Cugmas, J.Spigulis,
“Challenges in automated estimation of capillary refill time in dogs”, Proc.SPIE 10501,
1050117 (2018).
30. I.Oshina, J.Spigulis,
U.Rubins, E.Kviesis-Kipge, K.Lauberts, “Express RGB mapping of three to five
skin chromophores”, Proc. SPIE-OSA ,10413, 104130M-1 (2017).
31. M.R.Garcia, M.D.Stringasci,
D.V.Magalhăes, J.Spigulis, V.S. Bagnato, S. Pratavieira, “Photoaging Evaluation
by RGB Images Using a Smartphone for Photodynamic Therapy Assessment”, Proc.SPIE-OSA, 10411,
1041108-1 (2017).
32. I.Kuzmina, U.Rubins,
I.Saknite, J.Spigulis. „Rosacea assessment by erythema index and principal
component analysis segmentation maps”, Proc.SPIE 10592, 10592
04 (2017).
33. A.Lihachev, l.Lihacova,
J.Spigulis, T.Trebst, M.Wehner, “Monitoring soft tissue coagulation by optical
spectroscopy”, Proc.SPIE 10592, 10592 0D (2017).
34. A.Zhelyazkova, I.Kuzmina, E.Borisova, N.Penkov, Ts.Genova, J.Spigulis,
L.Avramov. Investigating
different skin and gastrointestinal tract (GIT) pathologies ex vivo by
autofluorescence spectroscopy and optical imaging, Proc. SPIE 10226,
1022615 (2017).
35. I.Saknite,
A.Grabovskis, S.Kazune, U.Rubins, Z.Marcinkevics, K.Volceka, E.Kviesis-Kipge,
J.Spigulis. Novel hybrid technology for early diagnosis of sepsis. Proc.SPIE 10057,
100570F (2017).
36. J. Spigulis, I. Oshina, Z. Rupenheits,
"Smartphone single-snapshot mapping of skin chromophores," in Biomedical
Optics 2016, OSA Technical Digest (online), JTu3A.46 (2016), https://www.osapublishing.org/abstract.cfm?uri=Cancer-2016-JTu3A.46.
37. U.Rubins, J.Spigulis,
A.Miscuks. Photoplethysmography imaging algorithm for continuous
monitoring of regional anesthesia. ESTIMedia'16 Proceedings
of the 14th ACM/IEEE Symposium on Embedded Systems for Real-Time Multimedia,
pp. 67-71 (2016).
38. D.Jakovels, I.Saknite,
D.Bliznuks, J.Spigulis, R.Kadikis. Benign-atypical nevi discrimination
using diffuse reflectance and fluorescence multispectral imaging system. BioPhotonics
2015 (Florence, IT), 7304026 (2015) – online.
39. D.Bliznuks, D.Jakovels,
I.Saknite, J.Spigulis. Mobile platform for online processing of multimodal
skin optical images: Using online Matlab server for processing remission,
fluorescence and laser speckle images, obtained by using novel handheld
device. BioPhotonics 2015 (Florence, IT), 7304024 (2015)
- online.
40. I.Saknite, J.Spigulis. Determination of in vivo skin moisture level by near-infrared reflectance
spectroscopy. Proc.SPIE, 9332,
93320Y (2015).
41. J.Spigulis, I.Oshina. 3x3 technique for RGB snapshot mapping of skin
chromophores. OSA Techn.Digests, Bio-Optics:
Design and Application, online (2015).
42. J.Spigulis, L.Elste.
Single-snapshot RGB multispectral imaging at fixed wavelengths: proof of
concept. Proc.SPIE, 8937, 89370L (2014).
43. A.Lihachev, I.Ferulova,.J.Spigulis, D.Chorvat. Parallel measurements
of in-vivo skin autofluorescence lifetimes and photobleaching rates. IFMBE
Proc. 48, 78-81 (2014).
44. D.Jakovels, I.Saknite,
G.Krievina, J.Zaharans, J.Spigulis. Mobile phone based laser speckle contrast
imager for assessment of skin blood flow. Proc.SPIE 9421,
94210J (2014).
45. N.Lesina, J.Spigulis. Hands-on optics and photonics outreach in Riga. Proc.
SPIE 9289, 92892I (2014).
46. D.Jakovels, I.Saknite,
J.Spigulis. Implementation of laser speckle contrast analysis as connection kit
for mobile phone for assessment of skin blood flow. Proc.SPIE,
9129, 91293I (2014).
47. L.Asare, E.Kviesis-Kipge,
J.Spigulis. Clinical measurement analysus of multi-spectral
photoplethysmography biosensors. Proc.SPIE, 9129, 912933 (2014).
48. I.Saknite, D.Jakovels,
J.Spigulis. Diffuse reflectance and fluorescence multispectral imaging system
for assessment of skin. Proc.SPIE, 9129, 91293H (2014).
49. U.Rubins, J.Spigulis,
A.Miscuks. Application of color magnification technique for revealing skin
microcircuration changes under regional anaesthetic input. Proc.SPIE,
9032, 903203 (2013).
50. A.Lihachev, D.
Jakovels, I.
Ferulova, J.
Spigulis, M.
Tamosiunas, S.
Satkauskas, C.
W. Lo, W.
S. Chen. Fluorescence
spectroscopy for estimation of anticancer drug sonodestruction in vitro . Proc.
SPIE 9032, 90320D (2013).
51. D.
Jakovels, A.
Lihachev, J.
Spigulis, S.
Satkauskas, M.
Tamosiunas, C.
W. Lo, W.
S. Chen. Assessment
of efficiencies of electroporation and sonoporation methods by using
fluorescence RGB imaging method. Proc. SPIE 9032,
90320E (2013).
52. I.Saknite, E.Kviesis, J.Spigulis. Water
detection in skin by dual-band photodiodes. .Proc. SPIE 9032,
90320O (2013).
53. I.Ferulova, A.Lihachev, J.Spigulis. Fluorescence
lifetime spectroscopy: potential for in-vivo estimation of skin fluorophores
changes after low power laser treatment. .Proc. SPIE 9032,
90320B (2013).
54. D.Jakovels, I.Lihacova, I.Kuzmina, J.Spigulis. Application
of principal component analysis to multispectral imaging data for evaluation of
pigmented skin lesions. Proc. SPIE 9032, 903204
(2013).
55. A.Bekina, V.
Garancis, U.
Rubins, J.
Spigulis, L.
Valeine, A.
Berzina. Multimodal
device for assessment of skin malformations . Proc.
SPIE 9032, 903207 (2013).
56. A.Bekina, U.Rubins, I.Lihachova,
J.Zaharans, J.Spigulis. Skin chromophore mapping by means of a modifified
video-microscope for skin malformation diagnosis. Proc.SPIE, 8856,
88562G (2013).
57. L.Asare, J.Spigulis.
Analysis of multispectral photoplethysmography biosensors. Proc.SPIE, 8801,
880106 (2013).
58. J.Spigulis, V.Garancis,
U.Rubins, E.Zaharans, J.Zaharans, L.Elste, “A device for multimodal imaging of
skin”, Proc. SPIE, v. 8574, 85740J (2013).
59. D.Jakovels, U.Rubins, J.Spigulis. LASCA and PPG imaging for
non-contact assessment of skin blood supply. Proc. SPIE,
v.8668, 866849 (2013).
60. I.Lihacova, A.Derjabo,
J.Spigulis. A multispectral imaging approach for diagnostics of skin
pathologies. Proc. SPIE 8798, 87980X (2013).
61. D. Jakovels, I. Lihacova, I.
Kuzmina, J. Spigulis. Evaluation of skin melanoma in spectral range 450-950 nm
using principal component analysis. Proc. SPIE 8803, 88030C
(2013).
62. U.
Rubins, J.
Spigulis, L.
Valeine, A.
Berzina. Semi-automatic
detection of skin malformations by analysis of spectral images .Proc.
SPIE 8798, 87980S (2013).
63. A.Bekina, U.Rubins, J.Zaharans, J.Spigulis. Skin
chromophore mapping by modified video microscope. Proc.
SPIE 8798, 87980T (2013).
64. I.Saknite, M.Lange, D.Jakovels, J.Spigulis. Determination of
chromophore distribution in skin by spectral imaging Proc. SPIE,v.8474
, 84740K (2012).
66. J.Spigulis, D.Jakovels,
L.Elste. Towards
single snapshot multispectral skin assessment. Proc. SPIE 8216, 82160L
(2012).
71. I.Kuzmina,
I. Diebele, L. Valeine, D. Jakovels, A. Kempele, J. Kapostinsh, J. Spigulis.
Multi-spectral imaging analysis of pigmented and vascular skin lesions: results
of a clinical trial.Proc. SPIE, v.7883 (BIOS’11, San Francisco, USA),
788312 (2011).
79. I.Kuzmina, L. Asare, I.
Diebele, D. Jakovels, A. Kempele, J. Spigulis. Multispectral imaging of
pigmented and vascular cutaneous malformations: the influence of laser
treatment.Proc. SPIE, vol. 7376 (LALS, Oulu, FI), 73760J (2010).
83. R. Erts, U. Rubins, and J.
Spigulis, Monitoring of blood pulsation using non-contact technique, Proc.
IFMBE 25/VII (11th World Congr. Med Phys. Biomed. Engin.,
Munich), Springer, pp. 754-756 (2009).
84. E. Kviesis-Kipge, E.
Curkste, J. Spigulis and D. Gardovska. Optical studies of the capillary refill
kinetics in fingertips, Proc. IFMBE, 25/VII (11th World
Congr. Med Phys. Biomed. Engin., Munich), pp. 377-379 (2009).
85. J. Spigulis, R. Erts, V. Nikiforovs, E. Kviesis-Kipge. Wearable wireless
photoplethysmography sensors. Proc. SPIE, vol. 6991 (Photonics
Europe, Strasbourg, FR), 6991120, 2008.
86. J. Paturskis, V. Veliks, M.
Ozols, I. Svikis, R. Erts, J. Spigulis. Photoplethysmography device for
detection of changes in the vasomotor parameters of small laboratory
animals. Proc. IFMBE, v. 20 (NBC-14, Riga, LV), pp. 386-389,
2008.
87. J. Spigulis, A. Lihachev, L. Gailite,
R. Erts. Novel laser technologies for human
skin in-vivo assessment. Proc. SPIE, Vol. 7022
(ALT’07 - Advanced Laser Technologies, Levi, FI),70220N, 2008.
88. J. Spigulis, L. Gailite, A. Lihachev. Contact probe pressure effects in skin multi-wavelength
photoplethysmography. Proc. SPIE-OSA, v. 6628 (Diagnostic
Optical Spectroscopy in Biomedicine IV, Munich, DE), 2007, pp. 66281F-1 –
66281F-8.
89. J. Spigulis. Biophotonics Master studies: teaching and training
experience at University of Latvia. Proc. ETOP 2007 (ICO-OSA-SPIE
Education and Training in Optics and Photonics, Ottawa, CA - CD-format),
2007. http://spie.org/etop/etop2007.html
90. J. Spigulis, L. Gailite, A. Lihachev. Multi-wavelength photoplethysmography for simultaneous recording of skin
blood pulsations at different vascular depths. Proc.
SPIE, vol. 6430 (BIOS’07, San Jose, USA), 2007, pp. 64301I-1
- 64301I-6.
91. I.Kuzmina, A. Lihachev, L. Gailite, J. Spigulis. Compact multi-functional skin spectrometry set-up. Proc. SPIE,
vol. 6596 (Advanced Optical Materials, Technologies and Devices, Vilnius, LT),
2007, pp. 6596OT1-6596OT6.
92. J. Spigulis. Application prospects of silica core side-glowing optical
fibers. Proc. SPIE v. 5952 (Optical Fibers II: Applications,
Warsaw, PL), 2005, pp. 595203-1 – 595203-6.
93. R. Erts, J. Spigulis, M. Ozols. Optical systems for non-invasive
cardiovascular biosensing. Proc. SPIE v. 5908 (Optical
Information Systems, San Diego, CA), 2005, pp. 59080J-1 – J7.
94. R. Erts, I. Kukulis, J. Spigulis, L. Kere. Dual
channel photoplethysmography studies of cardio-vascular response to the body position changes, Proc. SPIE v. 5859 (European Biomedical
Optics Symposium EBIOS’05, Munich, DE), 2005, pp. 58591K-1 – K5.
95. J. Spigulis. Optical non-invasive monitoring of skin blood
pulsations. Proc. SPIE (Avdanced
Optical Materials and Devices – 4, Tartu, EE), 2005, pp. 1R1-1R11.
96. R. Erts, I. Kukulis, J. Spigulis. Photonic
vascular diagnostics by four-channel photoplethysmography. Proc.
SPIE (Avdanced Optical Materials and Devices
– 4, Tartu, EE), 2005, pp. 1L1-1L9.
97. J. Spigulis, R. Erts, I. Kukulis, M. Ozols, K.
Prieditis. Optical multi-channel sensing of skin
blood pulsations. Proc. SPIE, Vol. 5459 (Optical Sensing,
Photonics Europe, Strasbourg, FR), 2004, pp. 46-53.
98. J. Spigulis, R. Erts, M. Ozols. Optical multi-channel monitoring of skin
blood pulsations for cardiovascular assessment. Proc. SPIE, Vol.
5318 (Advanced Biomedical and Clinical Diagnostic Systems, BIOS’04, San Jose,
USA), 2004, pp. 133-139.
99. J. Spigulis, R. Erts, M. Ozols. A portable two-channel PPG
cardiovascular sensor device. Proc. SPIE, Vol. 5138 (Photon
Migration and Diffuse-Light Imaging, Munich, DE), 2003 pp. 65-71.
100.
J. Spigulis, R. Erts, U. Rubins.
Micro-circulation of skin blood: optical monitoring by advanced
photoplethysmography techniques. – Proc. SPIE Vol. 5119
(Bioengineered and Bioinspired Systems, Maspalomas, ES), 2003, pp. 219-225.
101.
M. Stagitis, J.
Spigulis. Optical pressure sensor based on the side-emitting optical fibre. - Proc. SPIE Vol. 5123 (Advanced
Optical Devices and Medical Applications, Riga, LV), 2003, pp. 33-38.
102.
J. Spigulis, M. Ozols, R. Erts, K. Prieditis. A portable device for optical assessment of the cardiovascular condition. Proc. SPIE Vol.
5123 (Advanced Optical Devices and Medical Applications, Riga, LV), 2003, pp.
313-319.
103.
J. Spigulis, I. Kukulis,
E. Fridenberga, G. Venckus. Potential of advanced
photoplethysmography sensing for non-invasive vascular diagnostics and early
screening. Proc. SPIE, Vol. 4625 (Biomedical Optics Symposium BIOS
’02, San Jose, USA), 2002, p. 48-53.
104.
J. Spigulis. Teaching of laser-medical
topics: Latvian experience. Proc. SPIE., Vol. 4903 (Laser Florence
2001: A Window on the Laser Medicine World, Florence, IT), 2002, p. 197-201.
105.
J. Spigulis, A. Pfafrods. Pressure
sensitivity of the side-glowing optical fibres. Proc.
SPIE Vol. 4318 (Smart Optical Inorganic Structures and Devices,
ADOM-2, Vilnius, LT), 2001, p. 58-65.
106.
J. Spigulis, G. Venckus,
M. Ozols. Optical sensing for early cardio-vascular
diagnostics. Proc. SPIE. Vol. 3911 (Biomedical Optics Symposium
BIOS ‘2000, San Jose, USA), 2000, p. 27-31.
107.
J. Spigulis. Master’s level education in
Biomedical Optics: four-year experience at University of Latvia. Proc.
SPIE Vol. 3831 (Education and Training in Optics and Photonics,
Cancun, MX), 1999, p. 189-192.
108.
J. Spigulis, U. Rubins. Photoplethysmographic sensor with smoothed output
signals. Proc. SPIE Vol, 3570 (Biomedical Optics Europe, Stockholm,
SE), 1998, p. 195-199.
109.
J. Spigulis. MSc course programme on Biomedical Optics. Proc. SPIE Vol.
3190, 1997 (Education and Training in Optics, Delft, NL), p. 342-345.
110.
J. Spigulis, D. Pfafrods. Clinical
potential of the side-glowing optical fibers. Proc. SPIE Vol.
2977 (Biomedical Optics Symposium BIOS ’97, San Jose, USA), 1997, p. 84-87.
111.
J. Spigulis, D. Pfafrods, M. Stafeckis, W.
Jelinska-Platace. The "glowing" optical fibre designs and parameters. Proc. SPIE Vol.
2967 (Advanced Optical Materials and Devices, Riga), 1997, p. 226-231.
112.
J. Spigulis, D. Pfafrods, M. Stafeckis.
Optical fiber diffusive tip designs for medical laser-lightguide delivery
systems. Proc. SPIE Vol.
2328, 1994 ("Biomedical Optics
Europe '94", Lille, France), p. 69-75.
113.
J. Spigulis, J. Lazdins,
G. Barens. Fiberoptical intensity-ratio refractometer with
digital display. Proc. SPIE Vol. 2068 (Optical Tools for
Manufacturing and Advanced Automation, Boston,
USA), 1994, p. 308-312.
114.
J. Spigulis. Compact illuminators, collimators and focusers with half-spherical input
aperture. Proc. SPIE Vol. 2065 (Optical Tools for
Manufacturing and Advanced Automation, Boston,
USA), 1994, p. 54–59.