Family Name: Golnabi
First Name: Hossein
Place of Birth: Tehran, Iran
Date of Birth: May 24, 1951
Address:
Office: Institute of Water and Energy
Sharif University of Technology
P. O. Box 11155-8639, Tehran, Iran
Phone: +98 21 6616 4126
Fax: +98 21 66012983
E-mail:
golnabi@sharif.edu
dr.golnabi@gmail.com
Present Position:
Full Professor of Physics
a) Education:
1974 B.S., Physics, National University of Iran
1977 M. S., Physics, The University of Texas at Dallas
1981 Ph. D., Physics, The University of Texas at Dallas b) Teaching Experiences:
1975-1981 Teaching Assistant, Department of Physics
University of Texas at Dallas
1984-1990
1990-1991
Department of Physics, Sharif University of Technology
Department of Physics, Shahid Chamran University
1991- Department of Physics and Electrical Engineering, Sharif
University of Technology, Islamic Azad University
1

c) Research Experiences:
1975-1981
1975-1981
Research Assistant, Center for Quantum Electronics at University of Texas at Dallas.
Research Associate, Postdoctoral position Department of Chemistry at the
University of Texas at Dallas.
1975-1981 Research Associate, Postdoctoral position Department of Physics at the
University of Texas at Austin.
1981-1990 Sharif University of Technology, Department of Physics.
1991 Sharif University of Technology, Institute of Water and Energy.
(a) Graduate (PhD) : Optical Electronics, Quantum Optics, Seminar I-III, Principle and application of sensors, Quantum Electronics, Fundamental and applications of fiber optics, Special Topics.
(b) Graduate (MS) : Modern Quantum Mechanics I&II, Advance Laser, Optical Electronics,
Seminar I&II, Advance Spectroscopy, Advance Optics, Laser Electronics, Quantum Electronics,
Special Topics.
(c) Undergraduate : General Physics I,II,III, Quantum Mechanics I&II, Principle of Laser,
Electronics, Applied Optics, Optics Lab., Seminar I&II, Spectroscopy, Laser Electronics, Heat
&Thermodynamics, Waves, Modern Physics, Quantum Electronics, Modern Optics, Technology and Applications of Lasers, Technical English.
(d) International Workshops:
Participant of International Summer College on Optics and Photonics , ISCOP , Center for Applied
Physics and Astronomical Research, University of Tabriz, Iran, Aug. 12-24 (2001).
(e) National workshops and trainings:
Participated in the workshop on strategic management in the universities , Tehran, Aug. 2002.
Passed the training course on Evaluation of the productivity in universities , Tehran, Aug. 2002.
(e) Sabbatical Program:
During leave of absent worked on two projects at University of Texas at Dallas (UTD, 2003-04).
The first title was “Laser induced fluorescent system for engineering diagnostics”. Spent some times on experiment set up, in the engineering diagnostic lab headed by L.A. Melton. I tried to develop a
PLIF diagnostic tool for the fluorescence reaction based diagnostics that can be used for industrial processes such as gas mixing, O
2
mixing, and transport processes. Such system can provide direct engineering insight that drives the development of improved O
2
gas sensors.
The title of second project was “Preparation and application of HP/ HT system for the synthesis of novel materials”. During that period performed research at Nano Technology (NTI) Institute at UTD headed by R. H. Baughman. The research in NTI focuses on nanotechnology, photonic crystals, sensors & actuators, design, synthesis, and application of materials with novel properties.
Established the research work with the High-Pressure/High-Temperature machine (4GPa, 1700 C).
Such piston cylinder technology can be used for the synthesis of superconducting, mangnetoresistive, electroluminescent display materials, ceramics, dielectrics, glasses, hard, and self
2

lubricating materials. After the preparation of machine it was used for the synthesis of the special magnetic materials, and for the melt infiltration of metals in opals.
Atomic and Molecular Physics
Quantum Electronics
Laser Physics and Spectroscopy
Sensors and Actuators
1.
Multiphoton excitation of sodium (UTD).
2.
Photolysis spectroscopy of Cs-Kr excimers at visible wavelengths (UTD).
3.
Laser excited two-photon atomic fluorescence of oxygen and nitrogen (UTD).
4.
Laser stimulated Raman spectroscopy (UT).
5.
Design and construction of nitrogen lasers (SUT).
6.
Design and construction of dye laser systems (SUT).
7.
Study of laser systems for industrial applications (SUT).
8.
Study of dye laser oscillations and amplifications (SUT).
9.
Laser power measurements using a photochemical reaction (SUT).
10.
Study of sensors and their applications (SUT).
11.
Design and construction of capacitive sensors (SUT).
12.
Design and construction of different optical fiber sensors (SUT).
13.
Construction of a sensitive power supply for semiconductor lasers (SUT).
14.
Design and construction of laser vision sensors (SUT).
15.
Diffuse reflection measurements from different surface materials (SUT).
16.
Study and simulation of discharge in spark gaps (SUT).
17.
Design and construction of optical fiber sensors for liquid level detection (SUT).
18.
Investigation of optical pumping schemes in diode-laser pumped Nd:YAG laser (SUT).
19.
Study and simulation of Quantum bound and unbound states (SUT).
20.
Design and construction of lens ducts (SUT).
21.
Temperature distribution computation in synthesis of opal photonic crystals (SUT).
22.
Design and construction of a double fiber sensor (SUT).
23.
Measurement of intensity loss in coupling of two coaxial fibers (SUT).
24.
Design and construction of a cylindrical capacity sensor for study of liquids (SUT).
American Physical Society
Physical Society of Iran
Chemical Society of Iran
Optical Society of Iran
a) International Journals: See Appendix A
b) International Conferences: See Appendix A
c) National Journals: See Appendix B
3

d) National Conferences: See Appendix B
e) Patents:
1) H. Golnabi, Spark gap switch design for gas laser applications, Patent #24508, Tehran,
Iran (1990).
2) H. Golnabi and P. Azimi, Capacitive cylindrical sensor for electrical study of liquids,
Patent # 48444, Tehran, Iran (2008).
3) H. Golnabi and R. Jafari, Design and construction of a new spectrophotometer for spectral analysis, Patent # 54239, Tehran, Iran (2008).
g) Books:
1. Principles of Laser (translation)
2. The Role of Laser in Analytical Chemistry (correction)
3. Laser Electronics (translation, book of the year 82)
4. Fourier Transform Spectroscopy and its Applications (edition)
5. Laser in Chemistry (Ed. M. Lackner, Chapter 49 Contribution)
6. The Physics of Stars (translation)
S

Trend of laser research developments in global level, Optics & Laser Technology, Volume
38, Issue 2, 1, 2006, 122-131, Golnabi, H.; Mahdieh, M.H., October - December 2005, Rated
#5. January - March 2006, Rated #11.

Precise CCD image analysis for planar laser-induced fluorescence experiments, Optics &
Laser Technology, Volume 38, Issue 3, 1, 2006, 152-161, Golnabi, H., October - December
2005, Rated #11.

Design and operation of an evanescent optical fiber sensor, Optics and Lasers in
Engineering, Volume 45, Issue 1, 2007, 12-18, Golnabi, H.; Bahar, M.; Razani, M.; Abrishami,
M.; Asadpour, A., October - December 2006, Rated #2.

Design and performance of a plastic optical fiber leakage sensor, Optics &Laser
Technology, Volume 39, Issue 7, 2007, 1346-1350, Golnabi, H.; Azimi, P., April - June 2007,
Rated # 6 . July - September 2007, Rated # 8.

Design and application of industrial machine vision systems, Robotics and Computer-
Integrated Manufacturing, Golnabi, H.; Asadpour, A., Volume 23, Issue 6, 2007, 630-637, April
- June 2007, Rated # 20 . July - September 2007, Rated # 5 .
Oct. – Dec. 2007, Rated # 3,
January - March 2008, Rated #1 .
4


Design and construction of a fine drive system for scanning optical elements
Optics & Laser Technology, Volume 40, Issue 6, September 2008, Pages 803-808,
Golnabi,H.;Jafari, April-June2008,Rated#13 .

Design and operation of a double-fiber displacement sensor
Optics Communications, Volume 281, Issue 4, February 2008, Pages 614-620
Golnabi, H.; Azimi, P, January-March 2008, Rated #20 .

Investigation of optimum condition in oxygen gas-assisted laser cutting
Optics & Laser Technology, Volume 41, Issue 4, June 2009, Pages 454-460
Golnabi,H.;Bahar,M., January-March2009,Rated#18 .
1.
Design and construction of nitrogen lasers for spectroscopy studies (H. Samimi).
2.
Design and construction of capacitive and optical sensors (P. Azimi).
3.
Study of the beam shape and intensity profiles using beam imaging technique (A. Asadpour).
4.
Design and construction of beam shaping systems for study of beam cross section modification and output beam intensity profile (A. Haghighatzadeh).
5.
Measurement of capacitance, conductance, and permittivity of water samples using invasive and non-invasive cylindrical capacitive sensors (Gh. Behzadi).
6.
Study of specular and diffuse reflections from different surfaces with a double optical fiber design (R. Jafari).
1.
Simulation of Cs-Kr classical spectral line profiles.
2.
The use of a photochemical reaction in laser power measurements.
3.
Design and construction of dye laser systems.
4.
Simulation of the threshold current in semiconductor laser.
5.
Design and construction of a TE nitrogen laser.
6.
The use of a laser nephelometer system for anion measurements.
7.
Design and construction of precision capacitive sensors.
8.
Design and construction of a fiber-to-fiber optical sensor.
9.
Design and construction of a pulsed power supply for nitrogen laser.
10.
Investigation of quantum well semiconductor lasers.
11.
Design and analysis of spark gap switches for N
2
laser.
12.
Design and operation of an optical fiber sensor for pressure measurements.
13.
Investigation of the plasma parameters in small tokamak system.
5

14.
Study of laser photoionization processes and solving the rate equations for laser isotope separation.
15.
Study of laser matter interactions in material processing.
16.
Laser fluorescence study in plasma diagnostics.
17.
Design and construction of a double fiber displacement sensors.
18.
Study of dissociative recombination in excited rare gases.
19.
Comparison of the classical, semiclassical, and quantum mechanical treatment of the ion atom collisions.
20.
Diffuse reflection measurements from different surfaces.
21.
Study of the laser scanning systems and their applications.
22.
Design and optimization of charged particles and photon spectrometers according to the NIM standards.
23.
Simulation of collision processes in classical and quantum mechanics.
24.
Simulation of bound states in quantum mechanical problems.
25.
Design and construction of a fiber optic sensor for liquid level detection.
26.
Investigation of thermal lensing in sold state lasers.
27.
Study of position sensitive microchannel plates.
28.
Design of digital signal processing circuits for nuclear measurements.
29.
Temperature measurements using an optical fiber sensor.
30.
Design of a fiber optic sensor based on the light modulation.
31.
Study of laser applications in ophthalmology.
32.
Design of optical fiber sensors based on light leakage and reflection.
33.
Study of the charge injection process in carbon nanotube actuators.
34.
Study of light reflection from different surfaces.
35.
Measurement of physical parameters by using capacitance measurements.
36.
Measurement of small displacement by using a double fiber sensor.
37.
Measurement of total loss in the plastic optical fibers.
38.
Design and construction of inclined optical fiber sensors.
39.
1.
Sharif University of Technology, Physics Department, 30 projects.
2.
Sharif University of Technology, Electrical Eng. Dep., 6 projects.
3.
Sharif University of Technology, Mechanical Eng. Dep., 3 projects.
4.
Sharif University of Technology, Metallurgy Eng. Dep., 2 projects.
5.
Islamic Azad University, Physics Department, 20 projects.

Supervisor of different projects and training programs, 1986-91.

Ministry of Industry, Institute of Standards, Director of different projects and experimental laboratories, 1986-88.

Islamic Azad University, North Tehran Branch, Research Council, 1994-95.

Sharif University of Technology, Institute of Water and Energy, Research Council, 1990-
95.
6


Sharif University of Technology, Dean of Student Cultural Affairs Office, 1996-97.

Advisory Board, International Journal of Engineering, IRI, Tehran, 1998-.

Engineering committee member, Khwarizmi Youth Award, 1999, 2000.
1) Research prizewinner of the Sharif University of Technology in 1996, 1997, 1998.
2) First research prizewinner of the Sharif University of Technology in 1999, 2000.
3) First research prizewinner of the Ministry of Science, Research &Technology in 2000.
4) Distinguished Researcher of the Sharif University of Technology in 1999-2003, 2008,
2011.
5) Book of the year award, 2004, Co-Translator.
6)
Distinguished Scholar, listed by Scholar’s Biography in Iranology Foundation. III
1.
Professor C. B. Collins, Physics Department, The University of Texas at Dallas, MS#NB11,
USA (972) 883-2863. E-mail: cbc@utdallas.edu.
2.
Professor L. A. Melton, Chemistry Department, The University of Texas at Dallas, MS#BE26,
USA (972) 883-2863. E-mail: melton@utdallas.edu
.
3.
Professor J. W. Keto, Physics Department, The University of Texas Austin, USA (512) 417-
4151.
4.
Professor K. Sadrnezhaad, Sharif University of Technology, P. O. Box 11365-8639, Tehran,
Iran, E-mail: Sadrnezhaad @sharif.edu.
5.
Professor R. H. Baughman, The University of Texas at Dallas, Nano Tech Institute, MS#BE26,
USA (972) 883-2863. E-mail: ray.baughman@utdallas.edu.
7

Appendix A a) International Journals
1.
C. B. Collins, F. W. Lee, H. Golnabi , F. Davanloo, P.A. Vicharelli, , D. Popescu, and I.
Popescu “Photolytic spectroscopy of simple molecules III The selective photolysis of
CsKr and Cs
2
Kr at visible wavelength”, J. of Chem. Phys.
, 75(10), 4852-4862 (1981).
2.
H. Golnabi , “Reliable spark gap switch for laser triggering”, Rev. Sci. Instrum , 63(12),
5804-5805 (1992).
3.
J. Borysow, H. Golnabi
, R. H. Taylor and J. W. Keto, “Techniques for measuring small changes in the intensity of pulsed laser”, Appl. Opt.
, 31(15), 2814-2819 (1993).
4.
H. Golnabi
, “Nitrogen laser charging process investigation”,
IEEE J. Quantum
Electron.
, QE-29(4), 1192-1198 (1993).
5.
H. Golnabi
, and H. Samimi, “Triggerable spark gap switches for pulsed lasers”,
Rev.
Sci. Instrum.
, 65(9), 3030-3031 (1993).
6.
H. Golnabi
, “Design and construction of a high-precision computer controlled monochromator”,
Rev. Sci. Instrum.
, 65(9), 2798-2801 (1994).
7.
H. Golnabi
, and A. Ashrafi, “Theoretical studies of electrical characteristics of N
2 laser”,
International J. of Engineering , IRI, 7(3), 143-153 (1994).
8.
H. Golnabi
, and A. Ashrafi, “Producing 180 out of phase signals from a sinusoidal waveform input”,
IEEE Trans. Instrum. Meas.
, IM-45, 312-314 (1996).
9.
H. Golnabi
, “The study of the breakdown voltages for triggered spark gap switches”,
International J. of Engineering , IRI, 9(3), 143-150 (1996).
10.
H. Golnabi , “Fiber optic sensing of thermal expansion”, International J. of
Engineering , IRI, 9(2), 37-43 (1996).
11.
H. Golnabi , and A. Ashrafi, “Phase shift generation by a simple circuit”, Rev. Sci.
Instrum , 67(5), 2017-2019 (1996).
12.
H. Golnabi
, “Simple capacitive sensors for mass measurements”,
Rev. Sci. Instrum.
,
68(3), 1613-1617 (1997).
13.
H. Golnabi
, H. Samimi, and A. Masoumi, “Design of a simple laser system for nephelometric determination of anions”,
J. of Science , IRI, 8(3), 202-206 (1997).
14.
M. Ghorannevis, M. Moradshahi, M. Hossenion H. Golnabi
, and P. Korshid, “Design and fabrication of dc ion beam for heating plasma”,
Materials and Manufacturing
Process , 12(1), 29-35 (1997).
8

15.
A. Ashrafi, and H. Golnabi
, “A high precision method for measuring very small capacitance changes”,
Rev. Sci. Instrum.
, 70(5), 3483-3487 (1999).
16.
H. Golnabi
, “Image evaluation for synchronized laser scanning systems”,
Optics &
Laser Technology , 31(3), 225-232(1999).
17.
H. Golnabi , “Design and operation of different optical-fiber sensors for displacement measurements”, Rev. Sci. Instrum.
, 70(6), 2875-2879 (1999).
18.
H. Golnabi , “A model study of laser isotope separation by photoionization or photodissociation process”, J. of Sciences. IRI , 10 (3), 202-207 (1999).
19.
H. Golnabi
, “Measuring small displacements by using a capacitive transducer system”,
Scientia Iranica, International Journal of Science & Technology, 70(6), 69-74 (2000).
20.
H. Golnabi
, “Guard ring effects on capacitive transducer system”,
Scientia Iranica,
International Journal of Science & Technology , 70(6), 25-31(2000).
21.
H. Golnabi
, “Simulation of the interferometric sensors for pressure and temperature measurements”, Rev. Sci. Instrum.
, 71(4), 1608-1613 (2000).
22.
H. Golnabi
, “Comparison between the discharge development in two- and threeelectrode spark gap switches”,
Rev. Sci. Instrum.
, 71(2), 413-419 (2000).
23.
H. Golnabi
, “Fiber optic displacement sensor using a coated lens optic”,
Rev. Sci.
Instrum.
, 71(11), 4314-4318 (2000).
24.
H. Golnabi , “Design and operation of a laser scanning system”, Optics & Laser
Technology , 32(4), 267-272 (2000).
25.
H. Golnabi
, “Linearity in output signal of optical position sensing detector systems”,
Optics & Laser Technology , 32(5), 311-316 (2000).
26.
H. Golnabi , “Power supply and current modulation circuits for semiconductor lasers”,
International J. of Engineering , 13 (4), 1-15 (2000).
27.
H. Golnabi , “Design and construction of a sensitive capacitive sensor system”,
International J. of Engineering , 13 (2), 69-80 (2000).
28.
H. Golnabi
, “Weight measurements by using simple optical fiber sensors”,
International
J. of Engineering , 14 (2), 99-106 (2001).
29.
H. Golnabi
, “Comparison of different glass compounds for intrinsic fiber optic temperature sensors”,
J. Sci. I.R. Iran , 12(3), 265-270 (2001).
30.
H. Golnabi
, “Diffuse reflectance measurements from different surfaces”,
J. Sci. I.R.
Iran , 12 (4) 359-364(2001).
9

31.
H. Golnabi
, “Linearity in output signal of optical position sensing detector systems”,
Optical Testing Digest , 6(3), P4, 1 March (2001). SPIE On Line Electronic Publication, http: //www.spie.org/otd/.
32.
S. Khorasani and H. Golnabi
, “FEM simulation of two- and three-electrode spark gap discharges”, Scientia Iranica, International Journal of Science & Technology, 9(2), 116-
124 (2002).
33.
H. Golnabi , “Temporal and spatial behaviors of discharge in nitrogen gas between twoparallel-plane electrodes”, Iranian Journal of Science & Technology, Trans. B, 26 (B3) ,
497-506 (2002).
34.
H. Golnabi
, “Discharge current development in two-electrode spark gap switches”,
IEEE Trans.On Plasma Science, 30(1), 301-309 (2002).
35.
H. Golnabi
, “Mass measurement using intensity modulated optical fiber sensor”,
Optics
& Lasers in Engineering , 38(6), 537-548 (2002).
36.
H. Golnabi
, “Simulation of an optical sensing system for automatic object tracking”,
Robotics and Computer Integrated Manufacturing, 18 (3), 187-196 (2002).
37.
H. Golnabi
, “Evaluation of carrier density and gain profile in a semiconductor material”,
Scientica Iranica, International Journal of Science & Technology, 9(2), 167-175 (2002).
38.
H. Golnabi
, “Design of an optical fiber sensor for linear thermal expansion measurement”,
Optics & Laser Technology , 34 (5), 389-394 (2002).
39.
H. Golnabi
, “The effect of electrical parameters on the simulated spark gap discharge current”,
Rev. Sci. Instrum.
, 73(11), 4014-4021 (2002).
40.
H. Golnabi
, “Laser based sensor systems for automation and intelligent manufacturing”,
Technical Paper - Society of Manufacturing Engineers (SME). MS (MS02-275), pp. 1-10
(2002).
41.
H. Golnabi , “Role of laser sensor systems in automation and flexible manufacturing”,
Robotics and Computer Integrated Manufacturing, 19 (1,2), 201-210 (2003).
42.
A. Koohian, and H. Golnabi
, “Photon drag monitors for beam monitoring in laser applications”, Int. J. Eng. Sci.
, IUST,14 (4),153-162 (2003).
43.
H. Golnabi , “Thermal consideration on the design and operation of lens ducts”, Optics
&Laser Technology , 35(6), 415-423 (2003).
44.
H. Golnabi
, “Design and operation of a fiber optic sensor for liquid level detection”,
Optics & Lasers in Engineering ,41 (5), 801-812 (2004).
10

45.
H. Golnabi
, “Investigation of surface radius variation in design of a lens duct delivery system”,
Optics &Laser Technology , 36(1), 1-10 (2004).
46.
H. Golnabi
, H. Ahmadi, and M. Razani, “Application of double-cell arrangement in planar-laser induced experiments”, Rev. Sci. Instrum.
, 76(8) , art. no. 083106, pp. 1-5
(2005).
47.
H. Golnabi , and M. Razani, “The study of charge injection and electro-mechanical parameters in carbon nanotube materials”, International Journal of Nanoscience and
Nanotechnology. IJNN , 1(1), 21-30 (2005).
48.
H. Golnabi
, and M. H. Mahdieh, “Trend of laser research developments in global level”,
Optics & Lasers Technology , 38(2), 122-131 (2006).
49.
H. Golnabi
, “Precise CCD image analysis for planar laser induced fluorescence experiments”,
Optics & Lasers Technology , 38(3), 152- 161 (2006).
50.
H. Golnabi
, and R. Jafari, “Design and performance of an optical fiber sensor based on light leakage”,
Rev. Sci. Instrum.
, 77 (6), art. no. 066103, pp. 1-3 (2006).
51.
H. Golnabi
, M. Bahar, M. Razani, M. Abrishami , and A. Asadpour, “Design and operation of an evanescent optical fiber sensor”,
Optics & Lasers in Engineering ,
45(1), 12-18 (2007).
52.
H. Golnabi
, and M. Razani, “Oxygen sensing based on the oxidation process in resorufin dye”,
Sen. & Act. B, Chemical. , 122 (1), 109-117 (2007).
53.
H. Golnabi
, P. Azimi, and GH. Poseh, “Data acquisition and resistance measurements using a simple program”,
Scientia Iranica, International Journal of Science &
Technology, 5(14), 467- 473 (2007).
54.
H. Golnabi , and P. Azimi, “Design and performance of a plastic optical fiber leakage sensor”, Optics & Lasers Technology , 39 (7), 1346-1350 (2007).
55.
H. Golnabi , and A. Asadpour, “Design and application of industrial vision systems”,
Robotics and Computer Integrated Manufacturing, 23 (6), 630-637 (2007).
56.
H. Golnabi , and P. Azimi,
“
Design and operation of a double-fiber displacement sensor ”, Optics Communications , 281(4), 614-620 (2008).
57.
H. Golnabi , and P. Azimi, “Simultaneous measurements of the resistance and capacitance using a cylindrical sensor system”,
Modern Physics Letter B , 22(8), 595-610
(2008).
58.
H. Golnabi
, and R. Jafari, “Design and construction of a fine drive system for scanning optical elements
” ,
Optics & Lasers Technology , 40 (6), 803-808 (2008).
11

59.
H. Golnabi , and P. Azimi, “Design and performance of a cylindrical capacitive sensor to monitor the electrical properties”,
J. of Applied Sciences , 8 (9), 1699-1705 (2008).
60.
H. Golnabi ,
“
National laser research progress in context of international developments
”,
J. of
Applied Sciences , 8(17), 2958-2966 (2008).
61.
H. Golnabi , M. Kavei, and Kh. Azizi, “ Potentials of plastic optical Fibers for sensor technology”, Advanced Materials Research , 47-50, 161-164 (2008).
62.
A. Asadpour and H. Golnabi , “ Beam profile and image transfer study in multimode optical fiber coupling ”, J. of Applied Sciences, 8(22), 4210- 4214 (2008).
63.
R. Jafari and H. Golnabi ,
“
Spectral analysis using a new opto-mechanical instrument
”,
J. of Applied Sciences, 8(20), 3669- 3675 (2008).
64.
H. Golnabi and M Bahar, “Investigation of optimum condition in oxygen gas-assisted laser cutting”,
Optics & Lasers Technology , 41 (4), 454- 460 (2009).
65.
G. Behzadi and H. Golnabi,
“
Monitoring temperature variation of reactance capacitance of water using a cylindrical cell probe”,
J. of Applied Sciences, 9(4), 752 -758 (2009).
66.
P. Azimi and H. Golnabi,
“Precise formulation of electrical capacitance for a cylindrical capacitive sensor
”,
J. of Applied Sciences, 9(8), 1556- 1561 (2009).
67.
M. Bahar and H. Golnabi , “ Optimum experimental condition in oxygen gas-assisted low power Nd:YAG laser cutting
”,
Modern Physics Letter B , 23(6), 877-890 (2009) .
68.
H. Golnabi and M. R. Nourani, “Variation of beam divergence as a function of discharge gap distance for a Nitrogen laser”,
Modern Physics Letter B , 23(11), 1457-
1466 (2009).
69.
A. Haghighatzadeh, H. Golnabi, and M. Shakouri,
“
Design and operation of a simple beam shaping system”, J. of Applied Sciences, 9(18), 3350-3356 (2009).
70.
H. Golnabi , “Surface profiling using a double-fiber optical design ”, Optics & Lasers in
Engineering , 48(4), 421-426 (2010).
71.
S. Shahi, M. Khorvash, S.W.
Harun, H. ahmad, and H. Golnabi , “The temperature distribution Eximer Laser source (193 nm) within a human eye and review on some sideeffects”, Australian Journal of Basic and Applied Sciences, AJBAS , 4(5), 724-730
(2010).
72.
R. Jafari and H. Golnabi ,
“
Simulation of three different double-fiber probes for reflection sensing
”,
J. of Applied Sciences, 10 (1), 20- 28 (2010).
73.
A. Asadpour and H. Golnabi,
“
Fiber output beam shape study using imaging technique
”,
J. of Applied Sciences, 10 (4), 312-318 (2010).
12

74.
G. Behzadi and H. Golnabi ,
“
Investigation of conductivity effects on capacitance measurements of water liquids using a cylindrical capacitive sensor , J. of Applied
Sciences, 10 (4), 261- 268 (2010).
75.
H. Golnabi
, and A. Haghighatzadeh “Beam shape and intensity profile of a fiber-bundle prism-coupled waveguide”, Optics & Lasers in Engineering , 48(6), 720-726 (2010).
76.
H. Golnabi and M. Razani , “ Comparison of prism based optical probes for liquid monitoring ”, Modern Physics Letter B , 24 (11), 1111- 1126 (2010).
77.
H. Golnabi , L. Kargaran, and F. Heidari “Power modulation in axial and lateral fiber displacements in a fiber-to-fiber design”, Optics & Lasers in Engineering , 48 (10), 987-
993 (2010).
78.
M. Bahar, L. Kargaran, H. Golnabi
, “Different optical fiber sensor designs for liquid flow monitoring”, Australian Journal of Basic and Applied Sciences, AJBAS , 4(8),
3315- 3323(2010).
79.
H. Golnabi , M. Sharifian, “Study of electrical conductivity of different water liquids and electrolytes”, Australian Journal of Basic and Applied Sciences, AJBAS , 4(8), 3985-
3997 (2010).
80.
Z. Emami, H. Golnabi
, “
Comparison of beam shapes and transmission powers of two prism ducts”, Australian Journal of Basic and Applied Sciences, AJBAS , 4(10), 4922-
4929 (2010).
81.
M. Sharifian, H. Golnabi
, “Length effects on capacitance measurements of a cylindrical cell probe”, Australian Journal of Basic and Applied Sciences, AJBAS , 4(11), 5595-5613
(2010).
82.
R. Jafari, and H. Golnabi , “Fibre position effects on the operation of opto-pair fibre displacement sensors”, Optics & Lasers Technology , 43 (4), 814- 819 (2011).
83.
H. Golnabi ,“ Fiber core size determination from power measurements in a fiber-to-fiber design” Microwave and Optical Technology Letters , 53(6), 1225-1229 (2011).
84.
A. Haghighatzadeh and H. Golnabi “Flat-top beam profile generated using a fiberbundle prism-coupled beam shaper” Optics Communications , 284(12), 2817-2824
(2011).
85.
G. Behzadi, and H. Golnabi
, “Comparison of invasive and non-invasive cylindrical capacitive sensors for electrical measurements of different water solutions and mixtures”,
Sen. & Act. A , 167(2), 359-366 (2011).
13

86.
H. Golnabi , “ Design and operation of a double-fiber scanning system for surface profiling”, Optics & Lasers in Engineering , 49 (8), 1032- 1039 (2011).
87.
A. Khorramnazari and H. Golnabi ,
“
Object surface characteristics monitoring using light reflection measurements
”,
J. of Applied Sciences , 11 (15), 2823- 2829 (2011).
88.
S. Hamidi, and H. Golnabi , “Hydrogen storage in single- and multi-walled carbon nanotubes and nanotube bundles”, Australian Journal of Basic and Applied Sciences,
AJBAS , 5(7), 483- 490 (2011).
89.
E. Entezari and H. Golnabi , “Role of fiber arrangements in operation of a double-fiber opto-mechanical system”, J. of Applied Sciences , 11(16), 3001-3007 (2011).
90.
A. Mehrabani and H. Golnabi ,
“Investigation of humidity effect on the air refractive index using an optical fiber design”, J. of Applied Sciences , 11(16), 3022-3027 (2011).
91.
H. Golnabi
, “Near field study of output beam of a fiber-to-fiber design”,
Microwave and
Optical Technology Letters 53(11), 2572- 2575 (2011).
92.
G. Behzadi, L. Fekri and H. Golnabi ,
“
Effect of the reactance term on the charge/discharge electrical measurements using cylindrical capacitive probes
”,
J. of
Applied Sciences , 11(18), 3293- 3300 (2011).
93.
H. Golnabi
, “Measurements of the electrical parameters for different water samples”,
Measurement 44(10), 2175- 2184 (2011).
94.
H. Golnabi and N. Aghighi,
“Investigation of rolling loss mechanisms in plastic optical fibers”, J. of Applied Sciences , 20 (11), 3482-3489 (2011).
95.
H. Golnabi
, “
Using three different optical fiber designs to study humidity effect on the air refractive index
”,
Optics & Lasers in Engineering , 50 (11), 1495-1500 (2012).
96.
M. Siadat and H. Golnabi , “ Liquid color recognition by using an optical reflection system ”, J. of Applied Sciences , 12(18), 1917- 1924 (2012).
97.
F. Seraji, M. Seraji , and H. Golnabi “A possible use of fiber-optics ring resonator as a nano-scale optical sensor for detection of physical quantities”, International J. of Optics and Applications , 2(5), 76- 79 (2012).
98.
H. Golnabi , “Carbon nanotube research developments in terms of published papers and patents, synthesis and production”, Scientia Iranica F, International Journal of Science
& Technology, 19(6), 2012-2022 (2012).
99.
H. Golnabi
, and M. Sharifian, “Investigation of bending and temperature effects in optical fibers”, Microwave and Optical Technology Letters 55(1), 82- 86 (2013).
14

100.
H. Golnabi
, and M. Sharifian, “Investigation of water electrical parameters as a function of measurement frequency using cylindrical capacitive sensors”, Measurement
46(1), 305- 314 (2013).
101.
A. Haghighatzadeh and H. Golnabi, “Theoretical modeling of generation of hattop intensity profile from Gaussian beam by means of a two-stage beam shaper” Optics
Communications , 294(1 May), 182-187 (2013).
102.
H. Golnabi , “Operation of an opto-mechanical system using a double-cell design for liquid color recognition” , Optics & Lasers in Engineering , 51(7), 848-855
(2013). b) International Conferences
1.
C. B. Collins, F. W. Lee, H. Golnabi , P.A. Vicharelli, F. Davanloo, D. Popescu, and I. Popescu
“Selective laser photolysis of Cesium molecules”, Proceedings of the International Conference on Lasers, STS Press, McLean, Va. (1981) 741-748.
2.
P.A. Vicharelli, C. B. Collins, F. W. Lee, H. Golnabi , D. Popescu, and I. Popescu
“Semiclassical inversion of CsKr satellite bands”,
Proceedings of the International Conference on Lasers , STS Press, McLean, Va. (1981) 749-754.
3.
C. B. Collins, F. W. Lee, H. Golnabi , F. Davanloo, P.A. Vicharelli, D. Popescu, and I. Popescu
“State-selective photolysis of Cs
2
and CsKr”, Proceedings of the 33-Annual Gaseous
Electronics Conference, Norman, Oklahoma 1980, Bull. Am. Phys. Soc. 26,727 (1981).
4.
C. B. Collins, F. W. Lee, H. Golnabi , F. Davanloo, P.A. Vicharelli, D. Popescu, and I. Popescu
“State-selective photolysis of CsKr and Cs
2
Kr
”,
Proceedings of the 34-Annual Gaseous
Electronics Conference , Boston, Massachusetts, 1981, Bull. Am. Phys. Soc. 27,113 (1982).
5.
H. Golnabi
, R. Rambod and A. Massoumi, “The study of spectral line profiles in excimer molecules”,
Proceedings of the 2 nd
. International Conference on Lasers and their Applications ,
AEO, Tehran (1993) 101-106.
6.
H. Golnabi
, “A simple drive system for scanning optical elements”,
Proceedings of the 3rd.
International Conference on Flexible Automation and Integrated Manufacturing , FAIM’93,
CRC press Inc. (1993) 685-702.
15

7.
H. Golnabi
, H. Samimi, A. Massoumi, and M. R. Sohrabi “The determination of laser power variation using a photochemical reaction”,
Proceedings of the 2 nd
International Conference on
Lasers and their Applications , AEO, Tehran (1993) 167-173.
8.
H. Golnabi
, H. Samimi, and A. Massoumi, “Small gain measurements in laser scattering”,
Proceedings of the 1 st International Congress of Chemistry and Chemical Engineering, Tehran,1-
3 Sep. (1993) 65.
9.
A. Massoumi, H. Golnabi , and H. Samimi, “Recent advances in the role of lasers in
Chemistry”, Proceedings of the 1 st International Congress of Chemistry and Chemical
Engineering , Tehran, 1-3 Sep. (1993) 60.
10.
H. Golnabi
, H. Samimi, and A. Massoumi, “Determination of anions using a new laser system”,
Proceedings of the 1 st
International Congress of Chemistry and Chemical Engineering , Tehran,
1-3 Sep. (1993) 239.
11.
H. Golnabi
, and M. Ghorannevis, “Short wavelength amplifiers in laser produced plasmas”,
Proceedings of the International Summer School and Workshop on Nuclear Fusion and Plasma
Physics , China, Oct. 4-17 (1993) 134-138.
12.
H. Golnabi
, and A. Ashrafi, “The role of sensor system in automated manufacturing”,
Proceedings of the 4 th
International Conference on Flexible Automation and Integrated
Manufacturing
, FAIM’94, Begell House, Inc., New York (1994) 645-654.
13.
H. Golnabi
, and A. Ashrafi, “Theoretical and experimental investigation of a computer controlled angle tuning system”,
Proceedings of the 4 th
International Conference on Flexible
Automation and Integrated Manufacturing
, FAIM’94, Begell House, Inc., New York (1994)
834-843.
14.
H. Golnabi , and A. Ashrafi, “Design and construction of a reliable fiber optic sensor”,
Proceedings of the 5 th International Conference on Flexible Automation and Intelligent
Manufacturing , FAIM’95, Begell House, Inc., New York (1995) 910-917.
15.
H. Golnabi , and M. Ghorannevis, “Surface analysis using FT-IR spectroscopy”, Proceedings of the 5th World Seminar on Heat Treatment and Surface Engineering
, IFTH’95 (1995) 91-96.
16.
M. Ghorannevis, M. Moradshahi, M. Hossenion H. Golnabi , and P. Korshid, “Design and fabrication of dc ion beam for heating plasma”, Proceedings of the 5th World Seminar on Heat
Treatment and Surface Engineering
, IFTH’95 (1995) 875-880.
17.
H. Golnabi
, A. Ashrafi, and Habib Golnabi “Fiber optic sensing of displacement and pressure”,
Proceedings of the 6 th
International Conference on Flexible Automation and Intelligent
Manufacturing
, FAIM’96, Begell House, Inc., New York (1996) 149-158.
16

18.
H. Golnabi
, “Effective application of Auger electron spectroscopy”,
Proceedings of the Asian
Conference on X-ray and Related Techniques in Research and Industry
, ACXRI’96, June 6-8,
Ipoh, Malaysia (1996) 150-155.
19.
H. Golnabi
, “Nitrogen laser energy measurements by actinometry”,
National Laser Symposium ,
NLS-96, Feb. 6-8, Indore, India (1996). Poster.
20.
H. Golnabi , “Effective application of laser beam in metal processing and surface treatment”,
Proceedings of the 10 th Congress of the International Federation for Heat Treatment and
Surface Engineering , 1-5 Sep., Brington, UK (1996). Poster.
21.
H. Golnabi
, “Laser range finder and vision sensor for robotic applications”,
Proceedings of the
7 th
International Conference on Flexible Automation and Intelligent Manufacturing
, FAIM’97,
Begell House, Inc., New York (1997) 406-416.
22.
H. Golnabi
, “Smart sensor development and applications”,
Proceedings of the 8 th
International
Conference on Flexible Automation and Intelligent Manufacturing
, FAIM’98, Begell House,
Inc., New York (1998) 635-643.
23.
H. Golnabi
, N. Rahnavard, and R. Abdolvand, “Design and construction of a simple controller for autosynchronized scanning systems”,
Proceedings of the 8 th
International Conference on
Flexible Automation and Intelligent Manufacturing
, FAIM’98, Begell House, Inc., New York
(1998) 645-653.
24.
M. Ghorannevis, H. Golnabi
, M. Bakhtiari, and P. Korshid, “X-ray tomography method for plasma diagnostic”, European Conference on Energy Dispersive X-Ray Spectrometry , EDXRS-
98, 7-12 June, Bologna, Italy (1998).
25.
H. Golnabi
, “A computerized capacitive sensor system with a linear respond”,
Proceedings of the 9 th International Conference on Flexible Automation and Intelligent Manufacturing ,
FAIM’99, Begell House, Inc., New York (1999) 859-868.
26.
H. Golnabi , “Design of a 3-D camera based on the synchronized laser scanning system”,
Proceedings of the 9 th International Conference on Flexible Automation and Intelligent
Manufacturing
, FAIM’99, Begell House, Inc., New York (1999) 847-856.
27.
H. Golnabi , and M. Ghorannevis, “X-ray diagnostics in magnetically confined plasmas”,
European Conference on Energy Dispersive X-Ray Spectrometry , EDXRS-2000, 18-23 June,
Krakow, Poland (2000). Poster.
28.
H. Golnabi
, “Application of X-ray methods in Plasma diagnostics”,
Proceedings of the Asian
Conference on X-ray and Related Techniques in Research and Industry
, ACXRI’2000, Nov. 20-
22, Kuala Lumpur, Nuclear Science Journal of Malaysia, 18(2), 2000.127-135.
17

29.
H. Golnabi and M. Neshat “Design of an optical sensing system for relative motion measurements”,
Proceedings of the 11 th
International Conference on Flexible Automation and
Intelligent Manufacturing
, FAIM’01, Dublin, Ireland, Vol. 2, (2001) 912-923.
30.
H. Golnabi
, “Construction of a laser scanning system for range finding and vision sensing”,
Proceedings of the 11 th International Conference on Flexible Automation and Intelligent
Manufacturing , FAIM’01, Dublin, Ireland, Vol. 2, (2001) 901-911.
31.
H. Golnabi , “Laser-diode pumped solid state lasers”, Abstract of International Summer College on Optics and Photonics , ISCOP, LAMP Seminars, University of Tabriz, Iran, Aug. 12-24
(2001).
32.
H. Golnabi
, “Laser based sensor systems for automation and intelligent manufacturing”,
Proceedings of the 12 th
International Conference on Flexible Automation and Intelligent
Manufacturing
, FAIM’02, Oldenbourg Verlag, Germany (2002) 572-581.
33.
H. Golnabi,
P. Kamyar, and A. Ahmadi, “Characterizing microchannel plates for X-ray detection and imaging”,
Proceedings of the International Conference on X-ray and Related
Techniques in Research and Industry
, ICXRI’2002, Oct. 30-31, Kuala Lumpur, Malaysia, 18(2),
2002. Paper accepted.
34.
H. Golnabi
, “A comparison between the MCP based detectors for hard and soft X-rays”,
European Conference on Energy Dispersive X-Ray Spectrometry , EDXRS-2002, June 16-21,
Berlin, Germany (2002).
35.
H. Golnabi
, “Geometrical optimization of microchannel plates for X- and gamma-ray detection and imaging”,
IRRMA-V Conference , June 8-12, Bologna, Italy (2002). Poster.
36.
H. Golnabi
, “Comparison of the analog and digital pulse-shaping methods in signal processing in nuclear detection”, Proceedings of the International Nuclear Conference, INC’02 , Oct. 15-18,
Kuala Lumpur, Malaysia, 2002. Paper accepted.
37.
H. Golnabi , H. Ahmadi, S. Bahrami, and M. Oskoie “Dynamic modeling of a long range nanoactuator”, Proceedings of the 13 th International Conference on Flexible Automation and
Intelligent Manufacturing
, FAIM’03, (2003) 852-862.
38.
H. Golnabi , S. Bahrami, and M. Oskoie “Design and operation of a fiber optic probe for fluid level switching and detection”,
Proceedings of the 13 th
International Conference on Flexible
Automation and Intelligent Manufacturing
, FAIM’03, (2003)151-162.
39.
H. Golnabi
, and H. Ahmadi, “Proposing a long range sliding nanoactuator with a fine step resolution”,
Proceedings of the 14 th
International Conference on Flexible Automation and
Intelligent Manufacturing
, FAIM’04, (2004)1042 -1048.
18

40.
H. Golnabi , G. R. Vossoughi and H. R. Golnabi, “Design of a reflective encoder for positional sensing operation”,
Proceedings of the 14 th
International Conference on Flexible Automation and Intelligent Manufacturing
, FAIM’04, (2004) 1112-1118.
41.
H. Golnabi , M. Ghorannevis, and N. Chaboki “Computation of temperature distribution in infiltration of metal opal using a graphite furnace heating assembly”, Proceedings of the
Material Research Society , MRS- Spring Meeting, San Francisco, USA (2005) 878, 57-62.
42.
H. Golnabi , M. Golnabi and H. Ahmadi, “Proposing new carbon nanotube actuators for future application”, Proceedings of the 15 th International Conference on Flexible Automation and
Intelligent Manufacturing
, FAIM’05, (2005) 866-873.
43.
H. Golnabi , M. Razani, and M. Golnabi “Electro-mechanical process in carbon nanotube materials”,
Proceedings of the Material Research Society , MRS- Fall Meeting, Boston, USA
(2005) poster.
44.
H. Golnabi
, M. Bahar, M. Razani, and A. Asadpour “ Design, construction and operation of a double fiber optical fiber sensor”, Proceedings of Asiasense 2005 and international conference on new techniques in Pharmaceutical & Biological Research , Kuala Lumpur, Malaysia (2005) .
45.
H. Golnabi
, M. Oskoie, M. Golnabi and M. Razani, “Design of industrial machine vision systems for automated manufacturing”,
Proceedings of the 16 th
International Conference on
Flexible Automation and Intelligent Manufacturing
, FAIM’06 (2006) 439-446.
46.
H. Golnabi
, M. Ghorannevis, and M. Golnabi “Comparison of piezoelectric and carbon nanotube-based actuators”, Proceedings of the Material Research Society , MRS- Spring
Meeting, San Francisco, USA (2006) U7.1. Materials Research Society Symposium Proceedings
922, pp. 48-54
47.
H. Golnabi , and M. Golnabi “Growth of carbon nanotube research and prospects for future developments”, Proceedings of the Material Research Society , MRS- Spring Meeting, San
Francisco, USA (2006) KK1.3.
48.
H. Golnabi , R. Jafari, and M. Ghorannevis “Size effect in operation of double fiber displacement sensors”,
International Conference on Physics of Optical Materials and Devices,
ICOM 2006 , Aug. 31-Sep. 2, Montenegro (2006) Poster .
49.
H. Golnabi
, R. Jafari, and M. Ghorannevis, and M. Golnabi “Performance of a double-fiber intensity modulated sensor”,
International Conference on Physics of Optical Materials and
Devices, ICOM 2006 , Aug. 31-Sep. 2, Montenegro (2006) .
19

50.
H. Golnabi
, A. Nikjo, A. Asadpour and M. Ghorannevis, “Piezoelectric versus nanotube actuators”,
Proceedings of the Material Research Society , MRS- Fall Meeting, Boston, USA
(2006) poster, Q15.60.
51.
H. Golnabi
, E. Emami, H. R. Golnabi and P. Azimi, “Development of a new method for dynamic study of inchworm devices”, Proceedings of the 17 th International Conference on
Flexible Automation and Intelligent Manufacturing , FAIM’07 (2007) -, June 18-20,
Philadelphia, USA.
52.
H. Golnabi , H. R. Golnabi A. Asadpour, P. Azimi and G. Poseh, “Design of a simple machine vision system”,
Proceedings of the 17 th
International Conference on Flexible Automation and
Intelligent Manufacturing
, FAIM’07 (2007) -, June 18-20, Philadelphia, USA.
53.
H. Golnabi
, S. Shahi, “ A model study for eye temperature distribution computation by laser”,
12 th. Asian Chemical Congress Conference, FACT 2007, August 23-25, Kula Lumpur,
Malaysia, Poster FACT058.
54.
H. Golnabi
, A. Asadpour, R. Jafari, and M. Kavei, “Performance of a Vision System Using a
Dual Fiber Optics Design”,
Proceedings of the 18 th
International Conference on Flexible
Automation and Intelligent Manufacturing
, FAIM’08 (2008) 692-699, June 30- July 2,
University of Skovde, Sweden.
55.
H. Golnabi
, M. Kavei, and Kh. Azizi “Potentials of plastic optical fibers for sensor technology”,
Proceedings of the International Conference on Multifunctional Materials and Structures
(MFMS) , (2008) -, July 28- July 31, Hong Kong Polytechnic University, Hong Kong , China.
56.
H. Golnabi
, R. Jafari, A. Haghighatzadeh and E. Jali, “Fruit color and shape grading using a new vision system”,
Proceedings of the 19 th
International Conference on Flexible Automation and Intelligent Manufacturing , FAIM’09 (2009) 343-353, July 6- July 8, University of Teesside,
England.
57.
H. Golnabi , A. Haghighatzadeh and S. Dabagh, “ Surface monitoring by color reflectance measurements”, Proceedings of the 19 th International Conference on Flexible Automation and
Intelligent Manufacturing
, FAIM’09 (2009) 368-375, July 6- July 8, University of Teesside,
England.
58.
H. Golnabi , R. Jafari, and M Kiani “ Design and operation of a reflection transmission vision system for fruit imaging and grading”, Proceedings of the 20 th
International Conference on
Flexible Automation and Intelligent Manufacturing
, FAIM’10 (2010) 658-665, July 12- July 14,
California State University, Oakland, USA.
20

59.
H. Golnabi
, “Design and operation of an opto-pair fiber probe scanner for object curvature analysis”, Proceedings of the 21 th
International Conference on Flexible Automation and
Intelligent Manufacturing
, FAIM’11 (2011) -, June 26- June 29, Feng Chia University, Taiwan.
60.
H. Golnabi
, “Operation of an opto-mechanical scanning system for surface profiling using a plastic double-fiber probe”, Proceedings of The 20th International Conference on Plastic
Optical Fibers , POF 11, September 14- 16, 2011, University of Bilbao, Bilbao, Spain.
61.
H. Golnabi , “Object shape learning using a fiber-optic system”, Proceedings of the 22 th
International Conference on Flexible Automation and Intelligent Manufacturing , FAIM’12
(2012) Paper 1135, June 10- June 13, Tampere University of Technology, Helsinki, Finland.
62.
H. Golnabi
, “Performance of a Plane Capacitive Sensor for Stress Force Measurements”,
The
23 th
International Conference on Flexible Automation and Intelligent Manufacturing
, FAIM’13
(2013) Accepted Paper, June 26- June 28, University of Porto, Porto, Portugal.
63.
Appendix B c) National Journals:
1.
H. Golnabi , Application of lasers in medicine and related fields, Daroupakhsh Magazine, Part I,
No 35, 32- (1989).
2.
H. Golnabi , Application of lasers in medicine and related fields, Daroupakhsh Magazine, Part
II, No 36,13- (1989).
3.
H. Golnabi , Application of optical energy of high-power lasers, Research Proceedings, Sharif
University of Technology, Water and Energy Research Center, PP 1-247-1-251 (1990-91).
4.
H. Golnabi , Feasibility studies for establishing a laser workstation, Research Proceedings,
Sharif University of Technology, Mechanical Engineering, PP 469-475 (1991-92).
5.
H. Golnabi , Conversion of laser energy into dye laser energy, Research Proceedings, Sharif
University of Technology, Water and Energy Research Center, PP 476-479 (1991-92).
6.
M. Ghorannevis, A. Azmodeh, and H. Golnabi , Plasma the fourth state of the matter, Islamic
Azad University, J. of Science, 2, No 4/5, 469-476 (1992).
7.
H. Golnabi , Application of optical energy of high-power lasers, Research Proceedings, Sharif
University of Technology, Water and Energy Research Center, PP 52 (1992-93).
21

8.
H. Golnabi , Conversion of laser energy into dye laser energy, Research Proceedings, Sharif
University of Technology, Water and Energy Research Center, PP 540(1992-93).
9.
H. Golnabi , Conversion of laser energy into dye laser energy, Research Proceedings, Sharif
University of Technology, Water and Energy Research Center, PP 594 (1992-93).
10.
H. Golnabi , Laser power measurements by using a photochemical method, Research
Proceedings, Sharif University of Technology, Water and Energy Research Center, PP 13-21
(1993-94).
11.
H. Golnabi , Study of dye laser oscillation and amplification, Research Proceedings, Sharif
University of Technology, Water and Energy Research Center, PP 22-31 (1993-94).
12.
H. Golnabi , Feasibility studies for establishing a laser workstation, Research Proceedings,
Sharif University of Technology, Mechanical Engineering, PP 53-61 (1993-94).
13.
H. Golnabi , and M. Ghorannevis, Application of lasers in industry and production lines, Islamic
Azad University, J. of Science, 3, No 7/8, 745-759 (1993).
14.
H.
Golnabi , Study of sensors and their applications, Research Proceedings, Sharif University of
Technology, Water and Energy Research Center, PP 98-105 (1994-95).
15.
H. Golnabi , Study of dye laser oscillation and amplification, Research Proceedings, Sharif
University of Technology, Water and Energy Research Center, PP 91-97 (1994-95).
16.
H. Golnabi , Laser power measurements by using a photochemical method, Research
Proceedings, Sharif University of Technology, Water and Energy Research Center, PP 84-90
(1994-95).
17.
M. Ghorannevis, H. Golnabi , and M. Avakian, Do small tokamaks loose their reliability?
Islamic Azad University, J. of Science, 3, No 7/8, 857-862 (1993).
18.
H. Golnabi , Design and construction of capacitive sensors, Research Proceedings, Sharif
University of Technology, Water and Energy Research Center, PP 48-54 (1995-96).
19.
H. Golnabi , Study of sensors and their applications, Research Proceedings, Sharif University of
Technology, Water and Energy Research Center, PP 55-59 (1995-96).
20.
H. Golnabi , Design and construction of capacitive sensors, Research Proceedings, Sharif
University of Technology, Water and Energy Research Center, PP 73-80 (1996-97).
21.
H. Golnabi , Weight measurements by using optical fiber sensors, Research Proceedings, Sharif
University of Technology, Water and Energy Research Center, PP 65-72 (1996-97).
22.
H. Golnabi , Weight measurements by using optical fiber sensors, Research Proceedings, Sharif
University of Technology, Water and Energy Research Center, PP 111-119 (1997-98).
22

23.
H. Golnabi , Design and construction of power supply for semiconductor lasers, Research
Proceedings, Sharif University of Technology, Water and Energy Research Center, PP 99-109
(1997-98).
24.
H. Golnabi , Design and construction of power supply for semiconductor lasers, Research
Proceedings, Sharif University of Technology, Water and Energy Research Center, PP 73-82
(1998-99).
25.
H. Golnabi , Design and construction of laser scanners, Research Proceedings, Sharif University of Technology, Water and Energy Research Center, PP 63-72 (1998-99).
26.
H. Golnabi , The historical development of lasers, Iranian Magazine of Chemistry, No 3, 3-9
(2000).
27.
H. Golnabi , The principle and special characteristics of the laser beam, Iranian Magazine of
Chemistry, No 3, 10-15 (2000).
28.
H. Golnabi , Design and construction of laser scanners, Research Proceedings, Sharif University of Technology, Water and Energy Research Center, PP 35-43 (1999-2000).
29.
H. Golnabi , Diffuse reflection measurements from different metallic and nonmetallic surfaces,
Research Proceedings, Sharif University of Technology, Water and Energy Research Center, PP
45-53 (1999-2000).
30.
H. Golnabi , Simulation of two- and three-electrode spark gaps, Research Proceedings, Sharif
University of Technology, Water and Energy Research Center, PP 55-63 (2000-2001).
31.
H. Golnabi , Diffuse reflection measurements from different metallic and nonmetallic surfaces,
Research Proceedings, Sharif University of Technology, Water and Energy Research Center, PP
65-71 (2000-2001).
32.
H. Golnabi , Design and operation of optical fiber sensor for liquid level detection, Research
Proceedings, Sharif University of Technology, Water and Energy Research Center, PP 47-54
(2001-2002).
33.
H. Golnabi , Simulation of two- and three-electrode spark gaps, Research Proceedings, Sharif
University of Technology, Water and Energy Research Center, PP 55-62 (2001-2002).
34.
H. Golnabi , Measurements of diffusive reflections from different surfaces, Sharif, Journal of
Science & Technology, No 21, PP 54-58 (2002).
35.
H. Golnabi , Design and operation of optical fiber sensor for liquid level detection, Research
Proceedings, Sharif University of Technology, Water and Energy Research Center, PP 79 -
86(2002-2003).
23

36.
H. Golnabi , Simulation of the bound and unbound quantum states, Research Proceedings,
Sharif University of Technology, Water and Energy Research Center, PP 68-78 (2002-2003).
37.
H. Golnabi , M. Sharifi and M. Moghadam, Design of a lens duct system, Annual Report, Laser
Research Center, LRC-814022, PP 24-25, March (2002).
38.
H. Golnabi , A. Koohian, F. Esmailbagy, E. Darabi, and L. Rozbeh, Optimization of optical pumping process of Nd:YAG crystal using laser diodes. Islamic Azad University, J. of Science,
12, No 45, 3653-3662 (2002).
39.
H. Golnabi, Design and construction of a double fiber sensor, Research Proceedings, Sharif
University of Technology, Water and Energy Research Center, PP 79-84 (2004-2005).
40.
H. Golnabi, Temperature distribution computation in synthesis of opal photonic crystals,
Research Proceedings, Sharif University of Technology, Water and Energy Research Center, PP
69-78 - (2004-2005).
41.
H. Golnabi, Design and construction of a double fiber sensor, Research Proceedings, Sharif
University of Technology, Water and Energy Research Center, PP79 -84 (2005-2006).
42.
H. Golnabi, Temperature distribution computation in synthesis of opal photonic crystals,
Research Proceedings, Sharif University of Technology, Water and Energy Research Center, PP
- (2005-2006)
43.
H. Golnabi , and A. Dasthi, Modeling fiber optic pressure sensor fiber-to-fiber based on the modulation of light intensity, Karafan Faslnameh, No. 9, Winter 2006, 17-25.
44.
M. Razani, H. Golnabi , A prism based optical fiber system for liquid sensing, Iranian Physical
Journal. Vol. 1(2), 61 -66 (2007).
45.
E. Jali, H. Golnabi , and R. Jafari, Vision analysis for small size object imaging and grading ,
Iranian Physical Journal. Vol. 2(4), 11-16 (2009).
46.
H. Golnabi , M. Bahar, M. Matloob and M. Sharifian, Investigation of electrical conductivity of different water liquids and electrolyte solutions, Iranian Physical Journal. Vol. 3(2) 24-28
(2009).
47.
H. Golnabi , and M. Kiani Majd, Source effect in optical fiber output beam imaging, J. of
Theoretical and Applied Physics, Vol. 3(3) 27-30 (2009).
48.
S. Dabagh , and H. Golnabi , Total loss measurements in different optical fibers, Karafan
Faslnameh, 5( 24), Autumn (1388) 2009, 34-39.
49.
M. Razani, H. Golnabi et al. , Design and construction of an optical sensor for liquid level measurement, J. of Science. Alzahra University,Vol.23 (89),16-23 (2010).
24

50.
S. Dabagh and H. Golnabi , Attenuation investigation in different optical fiber types, Quarterly
Journal of Physics, Faslnameh Teheran North Branch, IAU. Vol. 1(1) 9- 12 (2010).
51.
F. Yousefiyan Kazeroni, M. R. Abolhassani, and H. Golnabi , Study of induced field charge distribution in carbon nanotube materials, J. of Theoretical and Applied Physics, Vol. 4(2) 34-
38 (2010).
52.
Y. Kolivand and H. Golnabi , Study of bending strength in single-wall carbon nanotubes,
Quarterly Journal of Physics, Faslnameh Teheran North Branch, IAU. Vol. 2(7) 13-18
(1390_2011).
53.
S. Rahimpour and H. Golnabi , Study of electrical capacitance variation by volume change of different water samples, Quarterly Journal of Physics, Faslnameh Teheran North Branch, IAU.
Vol. 2(8) 9- 14 (1390_2011).
54.
A. Grampour and H. Golnabi , Study of electrical characteristics of different liquids, Quarterly
Journal of Physics, Faslnameh Teheran North Branch, IAU. Vol. () - (1391_2012).
55.
A. Jahazi, M. Bahar and H. Golnabi , Quarterly Journal of Physics, Faslnameh Teheran North
Branch, IAU. Vol. () - (1391_012). d) National Conferences:
1.
H. Golnabi
, “Selective laser photolysis of simple molecules”, Proceedings of the Symposium on
Industrial Applications of Plasmas and Related Topics, 2, 19-22 May, AEO (1984) 115-125.
2.
H. Golnabi
, “Selective Photolysis of CsKr molecules”, J. of Phys. of Iran, 3(2), (1984) 176.
3.
H. Golnabi
, “Coherent Raman Spectroscopy”, Iranian Conference of Physics, J. of Phys. of
Iran, 3(2), (1984) 177.
4.
H. Golnabi
, “Trace analysis of metals in the components of a nuclear reactor plant by a laser system”, Proceedings of the Nuclear Science and Technology, Atomic Energy Organization, 2
(1985).
5.
H. Golnabi
, “Design of a scanning system for diffraction grating”, Abstracts of Iranian
Conference of Physics, (1985) 20.
6.
H. Golnabi , “Design and construction of dye laser components”, Proceedings of the National
Conference on lasers and their Applications, AEO, 12-16 Sep., (1987) 36-45.
7.
H. Golnabi , “Construction of a Delay and gate generator system”, Proceedings of the National
Conference on lasers and their Applications, AEO, 12-16 Sep., (1987) 423-428.
25

8.
H. Golnabi
, “A method for studying thin layers in food packing”, Proceedings of the National
Food preservation Congress, Oct. 17-19, TU (1987) 473-477.
9.
H. Golnabi
, “Application of a PC in solving quantum mechanics problems”, Abstracts of
Iranian Conference of Physics (1987) 20.
10.
H. Golnabi , “Application of lasers in biology and medicine”, Abstracts of Conference, Kerman
(1988) 15.
11.
H. Golnabi , A. Shahrtash, and A. Majdabadi, “Design and construction of high-power nitrogen lasers”, Abstracts of Iranian Conference of Physics (1989) 18.
12.
H. Samimi, H. Golnabi
, and A. Massoumi “Design of a nitrogen laser for spectroscopy”,
Abstracts of the 3 rd
Seminar on Analytical Chemistry, (1990) 22.
13.
H. Golnabi
, H. Samimi, A. Massoumi, and M. Ghisari “Design of a simple laser nephelometer system”, Abstracts of the Congress of Chemical and Chemical Engineering, (1991) 72.
14.
H. Golnabi , R. Rambod, and A. Massoumi, “Modeling of Cs-Kr spectral lines”, Abstracts of the
Congress of Chemical and Chemical Engineering, poster, (1991).
15.
H. Golnabi
, M. R. Sohrabi, and A. Massoumi, “Laser energy measurements by actinometry”,
Abstracts of the Congress of Chemical and Chemical Engineering, poster, (1991).
16.
H. Golnabi
, H. Samimi, A. Massoumi, and M. R. Nateghi “Optimization of fluorescence technique”, Abstracts of the 4 th
Seminar on Analytical Chemistry (1992) 36.
17.
A. Massoumi, H. Golnabi , and P. Darakhshi, “Application of FT-IR in atomic emission”,
Abstracts of the 5 th
Seminar on Analytical Chemistry (1993) 32.
18.
H. Golnabi
, “Laser isotope separation by photochemical reactions”, Abstracts of the 9 th
Congress of Chemical and Chemical Engineering (1993) 54.
19.
H. Golnabi , “Investigation of magnetic sensors and their biomagnetic applications”,
Proceedings of the 7 th Conference on Biomedical Engineering, SUT (1994) 40-47.
20.
H. Golnabi , M. Oskooi, and M. Hajalamdari, “Design and construction of a sensitive monochromator”, Abstracts of Iranian Conference of Physics, poster (1996).
21.
M. Ghorannevis, H. Golnabi
, et al.,“Plasma diagnostics in IR-T1 Tokamak”, Abstracts of
Iranian Conference of Physics, poster, (1996) 267.
22.
H. Golnabi
, “Study of electrical discharges in two- and three-electrode designs”, Abstracts of
Iranian Conference of Physics (1996) 213.
23.
H. Golnabi
, “Study of losses in the fiber optics connections”, Abstracts of Seminar on the Fiber
Optic Technology (1996).
26

24.
M. Ghorannevis, and H. Golnabi
, et al.,“DC magnetron sputtering ”, Proceedings of the 2 nd
National Seminar on Surface Engineering (1998) 279-288.
25.
H. Golnabi
, and M. Ghorannevis, “Analysis and optimization of laser parameters in cutting process”, Proceedings of the 2 nd
National Seminar on Surface Engineering (1998) 551-556.
26.
H. Golnabi , “Design and construction of sensors and their roles in industry”, Abstracts of the
1 st
Seminar on the Role of Physics in Industry, Tabriz, (1998) 11.
27.
M. Oskooi, H. Golnabi , and V. Feripour, “Single-mode operation of GaAs semiconductor laser by using a short step profile wave guide”, Abstracts of the 5 th Seminar of Optical Society of Iran,
(1998) 9.
28.
H. Golnabi
, and M. Oskooi, “Investigation and modeling of the Optical Confinement Factor in semiconductor laser”, Abstracts of the 5 th
Seminar of Optical Society of Iran, (1998) 8.
29.
H. Golnabi
, M. Tavasoli, and F. Vazmani, “Small displacement measurements by optical fiber sensors”, Abstracts of the 5 th
Seminar of Optical Society of Iran, (1998) 8.
30.
M. Ghorannevis, H. Golnabi , et al., “The role of IR-T1 (IRAN TOKAMAK 1) in future fusion program”, Abstracts of the First Seminar in Plasma Physics and Nuclear Fusion, Tehran, Iran,
14-15 October (1998) P8.
31.
H. Golnabi
, and M. Ghorannevis, “A study of laser potentials for magnetically confined plasma diagnostics”, First Seminar in Plasma Physics and Nuclear Fusion, Tehran, Iran, 14-15 October
(1998). J. of Sciences , Islamic Azad University, Vol. 9 (23), 1999. 1-13.
32.
H. Golnabi
, and A. Asadpour, “Diffuse reflection measurements from the metal surfaces”,
Abstracts of the 6 th
Seminar of Optical Society of Iran, (1999) 26.
33.
H. Golnabi
, “Investigation of tolerances of a rocket’s optical system”, Abstracts of the 6 th
Seminar of Optical Society of Iran, (1999) 22.
34.
H. Golnabi , “Optical-fiber sensors and their applications”, Abstracts of the 1 st Seminar on the
Optical Fiber Communication Technology, Tehran, (1999) 33.
35.
H. Golnabi , and M. Bagheri “The effects of a nonlinear gain term in current modulation of a semiconductor laser”, Proceedings of the 8 th
Photonics Conference of Iran, Esfahan, 6-7 Feb.
(2002) 120-123.
36.
S. Shahi and H. Golnabi , " Comparison of different refractive laser systems for eye surgery in Iran clinics ", Proc. of the 13th Iranian Conference on Biomedical Engineering, Feb 21-22,
2007, ICBM' 07, Sharif University of Technology, Tehran, Poster # 32, pp544-549.
27

37.
H. Golnabi , and S. Shahi "A model study for eye temperature computation by laser ", Proc. of the 12th Asian Chemical Congress, Aug. 23-25, 2007, FACT 07, Kula Lumpur, Malaysia,
Poster # FACT058.
38.
M. Bahar, H. Golnabi
, and M. Hamidi “Modeling the interaction of the electromagnetic fields due to the mobile telephones (900 and 1800 MHz) with the human brain tissues”, Abstracts of
Iranian Conference of Physics, (2009) 594.
39.
F. Yousefiyan Kazeroni, M. R. Abolhassani, and H. Golnabi , “Longitudinal changes in conductive nanotubes by induced voltage”. The 10 th. Iranian Condense material Conference.
Poster (1389-2010).
40.
F. Yousefiyan Kazeroni, and H. Golnabi
, “Radius changes in carbon nanotubes by induced voltage on the carbon atoms”. The 4 th
Iranian Physics Conference. Payam Nour University.
Poster (1389-2010).
41.
Z. Emami, and H. Golnabi , Beam Shaping System by Using Different Optical Components,
Payam Noor University, Esfahan, (1389,2010).
42.
Z. Emami, and H. Golnabi , Comparison of beam shapes and transmission intensities of two fiber-bundle waveguides, P90-91, Malek Ashtar University, Esfahan, (1390,2011).
43.
F. Yousefian and H. Golnabi “Dimensional changes in carbon nanotubes using voltage”,
Nanotechnology Iranian Student Conference, (1390-2011). Poster Section.
44.
R. Akhondi, and H. Golnabi “Source light coherency effects study in optical fiber output beam imaging”, 18 th Iranian Conference on Optics and Photonics, Tabriz University, Feb.7-9 (1390-
2012) poster.
45.
M. Sharifian, and H. Golnabi “Object Shape and Color Recognition by Using a Controllable
Optical Scanning System, 2nd National Conference Computer and Electrical and IT (91, 2012).
46.
M Majidoof, H. Golnabi, “ Image analysis for output beam of a fiber bundle using different light sources”, Applied Physics Seminar, April (1391, 2012), IAU, Shoshtar.
47.
A Haghighatzadeh, H. Golnabi, “ Theoretical study of prism ducts using analytical ray tracing”,
Applied Physics Seminar, April (1391, 2012), IAU, Shoshtar.
48.
F. Seraji, M. Seraji , H. Golnabi and F. Asghari “Sensor based on fiber-optics ring resonator for measurement of pressure and temperature in nano-scales”, Iranian Conference of Physics,
(1391,2012) 748-751 .
28