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So when you take all of this science knowledge and put it together. The invention of the Bio Harp is serious.
Here is a gold medal for something. Probably science related.
IBO 2001 Official Results
Please notice:
this is the one and only official ranking; it supersedes the paper versions formerly distributed.
Updated: July 19, 2001
Family name
First name
Country
Score
%
Final
Rank
GOLDEN MEDALS
Chansakul
Thanissara
Thailand
88,281
Lin
Yen-Yu
Taiwan
86,162
Chang
Albert
Taiwan
82,893
Licheuski
Uladzimir
Belarus
82,034
Amini
Sasan
Iran
81,665
Lee
Sang Moon
Korea
80,916
Tong
Yi
China
80,52
7
Usenkanov
Nurmuhammed
Kyrgyzstan
80,18
8
Singh Ahluwalia
Preetpaul
India
80,16
9
Wei
Yifeng
Singapore
79,77
10
Liao
Yajing
China
79,15
11
Lekprasert
Parawee
Thailand
79,03
12
Jeong
Choong Won
Korea
78,89
13
Rychard
Wojciech
Poland
78,42
14
Lee
Dong Hun
Korea
78,28
15
Lu
Li
China
78,03
16
Teo
Shiyi
Singapore
78,03
16
SILVER MEDALS
Oyardi-Zanjanie
Leila
Iran
76,80
18
Zheng
Ia-Jian
Taiwan
76,79
19
Michaïlov
Ivan
Russia
76,30
20
Truong
Liem
Vietnam
76,16
21
Huang
Fu
Taiwan
76,15
22
Anuwatworn
Amornpol
Thailand
76,06
23
Nicolov
Luchezar
Bulgaria
75,81
24
Tsibulko
Yuri
Ukraine
75,78
25
Ng
Priscilla
Singapore
75,77
26
Fullwood
Melissa
Singapore
75,67
27
Makarenko
Viatcheslav
Russia
75,18
28
Kukharenka
Aliaksandr
Belarus
74,41
29
Sîrbulescu
Ruxandra
Romania
74,31
30
Redondo
Leandro
Argentina
73,92
31
Berezhnoi
Nikolay
Kazakhstan
73,06
32
Jühe
Stephan
Germany
72,92
33
Vijayvergia
Namrata
India
72,92
34
Gailtte
Ieva
Latvia
72,55
35
Nichikov
Yuri
Ukraine
72,17
36
Cristea
Emilian
Romania
71,43
37
Misane
Maija
Latvia
71,05
38
Choi
Jae Myung
Korea
70,77
39
Zakaria
Rasheed
United kingdom
70,55
40
Loukianova
Galina
Russia
70,41
41
Chandra
Nilesh
India
70,30
42
Haapala
Antti
Finland
70,07
43
Davidson
Fiona
United kingdom
69,56
44
Agarwal
Shikhar
India
69,42
45
BRONZE MEDALS
Achixmin
Iaroslav
Russia
68,42
46
Zawadka
Konrad
Poland
68,40
47
Tesitel
Jakub
Czech rep.
68,30
48
Yanouski
Aliaksandr
Belarus
68,04
49
Madera
Ewa
Poland
67,68
50
Abtahi
Shahab
Iran
64,05
51
Nabian
Mohammad-Hossein
Iran
67,55
52
Novotny
David
Czech rep.
67,50
53
Nguyen
Hoang Chau
Vietnam
67,43
54
Slatyer
Tracy
Australia
67,39
55
Deinum
Eva
Netherlands
67,28
56
Matilainen
Merja
Finland
67,18
57
Nguyen
Anh Vu
Vietnam
66,92
58
Preativatanyou
Kanok
Thailand
66,79
59
Fechner
Peter
Germany
66,43
60
Jansta
Petr
Czech rep.
66,23
61
Popovych
Olena
Ukraine
66,20
62
Pelser
Maaike
Netherlands
66,20
63
Wu
Wei
China
66,16
64
Bur
Stephanie
Germany
65,73
65
Meisgen
Florian
Germany
65,57
66
Custo Greig
Luciano
Argentina
65,30
67
Sergin
Ismail
Turkey
65,04
68
Lee
Min-Zhao
Australia
65,03
69
Yerokhin
Maxim
Kazakhstan
64,79
70
Saarnio
Jussi
Finland
64,76
71
Icheva
Vanya
Bulgaria
64,57
72
Babitski
Miroslav
Belarus
64,41
73
Akkaya
Münir
Turkey
64,39
74
Sedman
Laura
Estonia
64,18
75
Chan
Kenneth
Australia
64,18
76
de Groot
Reinoud
Netherlands
64,06
77
Droppa
Michal
Slovakia
63,97
78
Castillejos
Armando
Mexico
63,69
79
Burkaliova
Daryna
Ukraine
62,81
80
Terzi
Nihal
Turkey
62,41
81
Eriksson
Rickard
Sweden
62,33
82
Kadlec
Tomas
Slovakia
62,11
83
Thornton
Simon
United kingdom
61,83
84
Bekakhmetov
Gabit
Kazakhstan
61,68
85
Benito
Dario
Argentina
61,32
86
Jappr
Ignasius Aditya
Indonesia
61,19
87
Howie
Jennifer
United kingdom
60,59
88
Baldi
Andrew
Australia
60,43
89
Nguyen
Kim Nu Thao
Vietnam
60,28
90
Baltkalne
Martina
Latvia
60,21
91
Mierzynska
Joanna
Poland
60,03
92
OTHER PARTICIPANTS
Siyayev
Dastanbek
Kyrgyzstan
59,34
93
Padioukova
Tatiana
Sweden
59,33
94
Dagdas
Yasin Fatih
Turkey
58,17
95
Niculescu
Dragos
Romania
57,96
96
Doyle
Tomas
Ireland
57,95
97
Pizica
Baiba
Latvia
57,83
98
de Jong
Johan
Netherlands
57,71
99
Sibuea
Meirosa
Indonesia
57,44
100
Florea
Florina
Romania
57,33
101
Zabala Morales
Cintia
Argentina
57,32
102
Rahmanov
Amangeldi
Turkmenistan
56,96
103
O'Brien
Mark
Ireland
56,82
104
Kubesova
Magdalena
Czech rep.
56,35
105
Joachimsson
Carl-Olof
Sweden
55,94
106
Roddy
Karen
Ireland
54,72
107
Liiv
Ingrid
Estonia
54,49
108
Amanidinova
Gulnaz
Kyrgyzstan
54,09
109
Kerekes
Arpad
Slovakia
53,46
110
Cavadov
Orhan
Azerbaijan
53,23
111
Wittock
Johan
Belgium
52,58
112
Martin
Turjak
Slovenia
52,26
113
Nurili
Fuad
Azerbaijan
51,75
114
Yunus
Junaedy
Indonesia
51,70
115
Vysna
Veronika
Slovakia
51,60
116
Leppämäki
Mika
Finland
51,23
117
Monoshev
Rasul
Kyrgyzstan
50,84
118
Dzhendov
Todor
Bulgaria
49,58
119
Kambarov
Yerkebulan
Kazakhstan
49,31
120
Muhammet Nazarov
Ihlas
Turkmenistan
49,12
121
Peter
Knaflic
Slovenia
49,11
122
Preem
Jens-Konrad
Estonia
48,95
123
Maddens
Bert
Belgium
48,86
124
Green
Judith
Ireland
48,85
125
Somleva
Desislava
Bulgaria
47,97
126
Gaskov
Mikk
Estonia
47,72
127
Simeonova
Marina
Switzerland
45,63
128
Mas'ngud
Mochamad
Indonesia
45,35
129
Lauters
Pascaline
Belgium
44,75
130
Schueep
Christof
Switzerland
44,24
131
Kormann
Urs
Switzerland
43,73
132
Silva Tinoco
Ruben
Mexico
43,51
133
Blaz
Gindiciosi
Slovenia
43,36
134
Olofsson
Gabriel
Sweden
42,85
135
Enkhjargal
Damsinsuren
Mongolia
42,27
136
Alfeeli
Mohammad
Kuwait
42,12
137
Ruzicka
Nicolas
Belgium
41,86
138
Ayala Orozco
Ciceron
Mexico
40,35
139
Cevadzade
Tural
Azerbaijan
39,02
140
Velazquez Valadez
Ulises
Mexico
38,98
141
Chinbayar
Bat-Ochir
Mongolia
38,78
142
Jana
Podojstersek
Slovenia
38,53
143
Hasan
Yaser
Kuwait
38,53
144
Memmedov
Resat
Azerbaijan
37,97
145
Lienhard
Daniel
Switzerland
37,64
146
Hocageldiyev
Dayanch
Turkmenistan
35,04
147
Boland
Hajar
Kuwait
31,91
148
Norov
Davaasuren
Mongolia
29,80
149
Bukalif
Fatma
Kuwait
25,78
150
Bolortuya
Ulziibat
Mongolia
25,67
151
Lets adds some communications equipment to the scientists resigme for the doubters.
Communications EquipmentNavicom Co., Ltd.
SnapshotPeople
OverviewBoard of DirectorsCommittees KEY EXECUTIVES FOR Navicom Co., Ltd.*
Name Board Relationships Title Age
Lee Sang-moon 30 Relationships Chief Executive Officer --
Chul Hwan Kim No Relationships Chief Financial Officer --
Jason Jang No Relationships Senior Executive Vice President of Strategic Planning Office --
Young Beak Kim No Relationships Executive Vice President of R&D Center --
Byung Yeun Kim No Relationships Senior Executive Vice President of Marketing Division --
Want to see the Bio Harp in the journal of medicine. Well Lee's other toys made it to the journal of applied physics. So guess whats next for a journal???
JOURNAL OF APPLIED PHYSICS
Journal of Applied Physics, 1 April 2007, Volume 101, Issue 7
~
LASERS, OPTICS, AND OPTOELECTRONICS
LA eng
TE Effect of the properties of an intracavity heat spreader on
second harmonic generation in vertical-external-cavity
surface-emitting laser
AU Jun-Youn Kim, Jaeryung Yoo, Soohaeng Cho, Ki-Sung Kim,
Gi Bum Kim, Junho Lee, Sang-Moon Lee, Taek Kim, and Yongjo Park
PP 073101(4)
$$
LA eng
TE Forouhi-Bloomer and Tauc-Lorentz optical dispersions applied
using spectroscopic ellipsometry to plasma-deposited
fluorocarbon films
AU T.Easwarakhanthan, D.Beyssen, L.Le Brizoual, and P.Alnot
PP 073102(7)
$$
LA eng
TE GaInNAsSb/GaNAs quantum-well VCSELs: Modeling and physical
analysis in the 1.50-1.55 mum wavelength range
AU Robert P.Sarzala and Wlodzimierz Nakwaski
PP 073103(7)
$$
LA eng
TE Separation of electrostrictive and absorptive stimulated
Brillouin spectra
AU Toshiaki Sonehara, Hitomi Kaminaga, Eriko Tatsu,
Seishiro Saikan, and Seigo Ohno
PP 073104(4)
$$
LA eng
TE Optical characterization of liquid crystals by combined
ellipsometry and half-leaky-guided-mode spectroscopy in the
visible-near infrared range
AU G.Abbate, V.Tkachenko, A.Marino, F.Vita, M.Giocondo, A.Mazzulla,
and L.De Stefano
PP 073105(9)
$$
LA eng
TE Derivation of a modified Fermi-Dirac distribution for quantum
dot ensembles under nonthermal conditions
AU Huw D.Summers and Paul Rees
PP 073106(8)
$$
LA eng
TE Mode identification of high-quality-factor single-defect
nanocavities in quantum dot-embedded photonic crystals
AU Masayuki Shirane, Shunsuke Kono, Jun Ushida, Shunsuke Ohkouchi,
Naoki Ikeda, Yoshimasa Sugimoto, and Akihisa Tomita
PP 073107(7)
$$
LA eng
TE Microcavity enhanced spontaneous emission from silicon
nanocrystals
AU A.Belarouci and F.Gourbilleau
PP 073108(4)
$$
LA eng
TE Photoemission studies from metal by UV lasers
AU G.Caretto, D.Doria, V.Nassisi, and M.V.Siciliano
PP 073109(7)
$$
LA eng
TE Highly photostable solid-state dye lasers based on
silicon-modified organic matrices
AU A.Costela, I.Garci'a-Moreno, D.del Agua, O.Garci'a, and R.Sastre
PP 073110(11)
$$
LA eng
TE Phase velocity of the TEM (1,0)+TEM (0,1) mode laser and
electron accelerations in vacuum
AU L.Wu, Q.Kong, Y.K.Ho, P.X.Wang, J.J.Xu, D.Lin, and S.Kawata
PP 073111(5)
$$
PLASMAS AND ELECTRICAL DISCHARGES
LA eng
TE Increasing lifetime of the plasma channel formed in air using
picosecond and nanosecond laser pulses
AU V.Narayanan, V.Singh, Pramod K.Pandey, Neeraj Shukla, and
R.K.Thareja
PP 073301(4)
$$
LA eng
TE Tomographic interferometry of a filtered high-current vacuum arc
plasma
AU George B.Warr, Richard N.Tarrant, Marcela M.M.Bilek,
David R.McKenzie, Jeffrey H.Harris, John Howard, and
Boyd D.Blackwell
PP 073302(11)
$$
LA eng
TE An alternative method for gas temperature determination in
nitrogen plasmas: Fits of the bands of the first positive system
(B ^{3}Pi_{g}-->A ^{3}Sigma_{u}^{+})
AU Costel Biloiu, Xuan Sun, Zane Harvey, and Earl Scime
PP 073303(11)
$$
LA eng
TE Photonic bands in two-dimensional microplasma arrays. I.
Theoretical derivation of band structures of electromagnetic
waves
AU Osamu Sakai, Takui Sakaguchi, and Kunihide Tachibana
PP 073304(9)
$$
LA eng
TE Photonic bands in two-dimensional microplasma arrays. II. Band
gaps observed in millimeter and subterahertz ranges
AU Takui Sakaguchi, Osamu Sakai, and Kunihide Tachibana
PP 073305(7)
$$
LA eng
TE Nonthermal atmospheric rf plasma in one-dimensional spherical
coordinates: Asymmetric sheath structure and the discharge
mechanism
AU Yukinori Sakiyama and David B.Graves
PP 073306(9)
$$
LA eng
TE Operational characteristics and plasma measurements in
cylindrical Hall thrusters
AU Atsushi Shirasaki and Hirokazu Tahara
PP 073307(7)
$$
LA eng
TE Probe diagnostics of argon-oxygen-tetramethyltin capacitively
coupled plasmas for the deposition of tin oxide thin films
AU J.Pulpytel, W.Morscheidt, and F.Arefi-Khonsari
PP 073308(6)
$$
LA eng
TE Mode transitions and hysteresis in inductively coupled plasmas
AU A.M.Daltrini, S.A.Moshkalev, M.J.R.Monteiro, E.Besseler,
A.Kostryukov, and M.Machida
PP 073309(6)
$$
STRUCTURAL, MECHANICAL, THERMODYNAMIC, AND
OPTICAL PROPERTIES OF CONDENSED MATTER
LA eng
TE Swift heavy ion-induced swelling and damage in yttria-stabilized
zirconia
AU Jean-Marc Costantini, Christina Trautmann, Lionel Thome',
Jacek Jagielski, and Francois Beuneu
PP 073501(8)
$$
LA eng
TE Step coverage modeling of thin films in atomic layer deposition
AU Ja-Yong Kim, Ji-Hoon Ahn, Sang-Won Kang, and Jin-Hyock Kim
PP 073502(7)
$$
LA eng
TE Diamond growth on Fe-Cr-Al alloy by H_{2}-plasma enhanced
graphite etching
AU Y.S.Li and A.Hirose
PP 073503(5)
$$
LA eng
TE Dynamic analysis of axially prestressed micro/nanobeam
structures based on nonlocal beam theory
AU Pin Lu
PP 073504(10)
$$
LA eng
TE Optical transmission through gold film with Archimedean-like
subwavelength hole arrays
AU Jia-Qi Li, Wei-Qing Yang, Yan-Ting Zhang, Qian-Jin Wang,
Cheng-Ping Huang, and Yong-Yuan Zhu
PP 073505(3)
$$
LA eng
TE Surface-state related luminescence in ZnO nanocrystals
AU Johannes Fallert, Robert Hauschild, Felix Stelzl, Alex Urban,
Markus Wissinger, Huijuan Zhou, Claus Klingshirn, and Heinz Kalt
PP 073506(4)
$$
LA eng
TE Pressure-dependent Raman scattering and photoluminescence of
Zn_{1-x}Cd_{x}Se epilayers
AU Y.C.Lin, C.H.Chiu, W.C.Fan, S.L.Yang, D.S.Chuu, and W.C.Chou
PP 073507(6)
$$
LA eng
TE Structural and optical properties of InP quantum dots grown on
GaAs(001)
AU M.P.F.de Godoy, M.K.K.Nakaema, F.Iikawa, M.J.S.P.Brasil,
J.M.J.Lopes, J.R.R.Bortoleto, M.A.Cotta, R.Magalha~es-Paniago,
M.J.Moerschbaecher, and P.F.P.Fichtner
PP 073508(6)
$$
LA eng
TE Alternative slip system activation in lattice-mismatched
InP/InGaAs interfaces
AU N.J.Quitoriano and E.A.Fitzgerald
PP 073509(10)
$$
LA eng
TE Annealing effects on InGaAsN/GaAs quantum wells analyzed using
thermally detected optical absorption and ten band k-p
calculations
AU T.Bouragba, M.Mihailovic, F.Reveret, P.Disseix, J.Leymarie,
A.Vasson, B.Damilano, M.Hugues, J.Massies, and J.Y.Duboz
PP 073510(6)
$$
LA eng
TE In situ stress evolution during sputter deposition of Cu/Co
bilayers and multilayers
AU M.Pletea, W.Brueckner, H.Wendrock, J.Thomas, R.Kaltofen, and
R.Koch
PP 073511(7)
$$
LA eng
TE Anisotropy of the thermal expansion of the Ni(Si_{1-x}Ge_{x})
phases investigated by high-temperature x-ray diffraction
AU C.Perrin, F.Nemouchi, G.Clugnet, and D.Mangelinck
PP 073512(7)
$$
LA eng
TE X-ray diffraction analysis of the structure of antisite arsenic
point defects in low-temperature-grown GaAs layer
AU S.Fukushima and N.Otsuka
PP 073513(7)
$$
LA eng
TE Structure, optical, and electrical properties of indium tin
oxide thin films prepared by sputtering at room temperature and
annealed in air or nitrogen
AU C.Guille'n and J.Herrero
PP 073514(7)
$$
LA eng
TE Long wavelength propagation of elastic waves in
three-dimensional periodic solid-solid media
AU Qing Ni and Jianchun Cheng
PP 073515(6)
$$
LA eng
TE Charge states and quantitative infrared spectroscopy of
electrically active oxygen centers in gallium arsenide
AU H.Ch.Alt, Y.V.Gomeniuk, and U.Kretzer
PP 073516(6)
$$
LA eng
TE Material characterization with ramp wave experiments
AU J.L.Ding and J.R.Asay
PP 073517(19)
$$
LA eng
TE The formation of self-assembled InAs/GaAs quantum dots emitting
at 1.3 mum followed by photoreflectance spectroscopy
AU W.Rudno-Rudzin'ski, G.Sek, J.Misiewicz, T.E.Lamas, and A.A.Quivy
PP 073518(4)
$$
LA eng
TE Strain-induced splitting of the valence band in epitaxially
lifted-off GaAs films
AU Cherry May N.Mateo, Alipio T.Garcia, Flo Rykiel M.Ramos,
Kristine I.Manibog, and Arnel A.Salvador
PP 073519(4)
$$
LA eng
TE Changes in mechanical properties of Zr-based bulk metallic glass
under linear heating and cooling
AU S.Tamura, M.Fukuhara, and A.Inoue
PP 073520(6)
$$
ELECTRONIC STRUCTURE AND TRANSPORT
LA eng
TE Defect imaging in multicrystalline silicon using a lock-in
infrared camera technique
AU Peter Pohl, Jan Schmidt, Christian Schmiga, and Rolf Brendel
PP 073701(11)
$$
LA eng
TE Spin diffusion/transport in n-type GaAs quantum wells
AU J.L.Cheng and M.W.Wu
PP 073702(10)
$$
LA eng
TE The influence of compressive stress on shallow-donor impurity
states in symmetric GaAs-Ga_{1-x}Al_{x}As double quantum dots
AU Jian-Jun Liu, Man Shen, and Shao-Wei Wang
PP 073703(6)
$$
LA eng
TE CdSe nanowires with illumination-enhanced conductivity: Induced
dipoles, dielectrophoretic assembly, and field-sensitive emission
AU Ronghui Zhou, Hsueh-Chia Chang, Vladimir Protasenko,
Masaru Kuno, Amol Kumar Singh, Debdeep Jena, and
Huili (Grace) Xing
PP 073704(9)
$$
LA eng
TE Optically detected cyclotron resonance studies of
In_{x}Ga_{1-x}N_{y}As_{1-y}/GaAs quantum wells sandwiched
between type-II AlAs/GaAs superlattices
AU D.Dagnelund, I.Vorona, X.J.Wang, I.A Buyanova, W.M.Chen,
L.Geelhaar, and H.Riechert
PP 073705(7)
$$
LA eng
TE Properties of dominant electron trap center in n-type SiC
epilayers by means of deep level transient spectroscopy
AU M.Asghar, I.Hussain, H.S.Noor, F.Iqbal, Q.Wahab, and A.S.Bhatti
PP 073706(5)
$$
LA eng
TE Structural evolution and characterization of heteroepitaxial
GaSb thin films on Si(111) substrates
AU Thang Nguyen, Walter Varhue, Michael Cross, Robinson Pino,
Edward Adams, Mark Lavoie, and Jaichan Lee
PP 073707(7)
$$
LA eng
TE Ultrahigh-temperature microwave annealing of Al^{+}- and
P^{+}-implanted 4H-SiC
AU Siddarth G.Sundaresan, Mulpuri V.Rao, Yong-lai Tian,
Mark C.Ridgway, John A.Schreifels, and Joseph J.Kopanski
PP 073708(7)
$$
LA eng
TE Oscillation of gate leakage current in double-gate
metal-oxide-semiconductor field-effect transistors
AU V.Nam Do and P.Dollfus
PP 073709(6)
$$
MAGNETISM AND SUPERCONDUCTIVITY
LA eng
TE Dielectric response of Cu/amorphous BaTiO_{3}/Cu capacitors
AU P.Gonon and F.El Kamel
PP 073901(6)
$$
LA eng
TE Effect of substrate temperature on pulsed laser ablated
Zn_{0.95}Co_{0.05}O diluted magnetic semiconducting thin films
AU Q.Liu, C.L.Yuan, C.L.Gan, and G.C.Han
PP 073902(4)
$$
LA eng
TE Mechanism of subwavelength imaging with bilayered magnetic
metamaterials: Theory and experiment
AU O.Sydoruk, M.Shamonin, A.Radkovskaya, O.Zhuromskyy, E.Shamonina,
R.Trautner, C.J.Stevens, G.Faulkner, D.J.Edwards, and L.Solymar
PP 073903(8)
$$
LA eng
TE Defect induced low temperature ferromagnetism in Zn_{1-x}Co_{x}O
films
AU E.Biegger, M.Fonin, U.Ruediger, N.Janen, M.Beyer, T.Thomay,
R.Bratschitsch, and Yu.S.Dedkov
PP 073904(6)
$$
LA eng
TE Field dependent alternating current susceptibility of
metalorganically deposited YBa_{2}Cu_{3}O_{7-delta} films
AU D.-X.Chen, E.Pardo, A.Sanchez, M.N.Iliev, S.-S.Wang, and Z.-H.Han
PP 073905(12)
$$
LA eng
TE Microstructure and possible strain relaxation mechanisms of
La_{2}CuO_{4+delta} thin films grown on LaSrAlO_{4} and
SrTiO_{3} substrates
AU Jiaqing He, Robert F.Klie, Gennady Logvenov, Ivan Bozovic, and
Yimei Zhu
PP 073906(6)
$$
LA eng
TE Magnetic and transport properties of Ni_{81}Fe_{19}/Al_{2}O_{3}
granular multilayers approaching the superparamagnetic limit
AU R.Bruchas, M.Hanson, R.Gunnarsson, E.Wahlstroem, M.van Kampen,
B.Hjoervarsson, H.Lidbaum, and K.Leifer
PP 073907(8)
$$
LA eng
TE Large-scale molecular dynamics simulation of magnetic properties
of amorphous iron under pressure
AU Pui-Wai Ma, W.C.Liu, C.H.Woo, and S.L.Dudarev
PP 073908(9)
$$
LA eng
TE Fast numerical three-dimensional scheme for the simulation of
hysteresis in ferromagnetic grains
AU Ben Van de Wiele, Femke Olyslager, and Luc Dupre'
PP 073909(9)
$$
LA eng
TE Influence of mixing the low-valent transition metal atoms (Y,
Y^{*}=Cr, Mn, Fe) on the properties of the quaternary
Co_{2}[Y_{1-x}Y_{x}^{*}]Z (Z=Al, Ga, Si, Ge, or Sn) Heusler
compounds
AU K.Oezdogan, B.Aktas, I.Galanakis, and E.Sasioglu
PP 073910(9)
$$
LA eng
TE Spin-transfer induced noise in nanoscale magnetoresistive sensors
AU R.Sbiaa and S.N.Piramanayagam
PP 073911(3)
$$
LA eng
TE Room temperature magneto-resistance and temperature coefficient
of resistance in La_{0.7}Ca_{0.3-x}Ag_{x}MnO_{3} thin films
AU P.K.Siwach, V.P.S.Awana, H.Kishan, R.Prasad, H.K.Singh,
S.Balamurugan, E.Takayama-Muromachi, and O.N.Srivastava
PP 073912(5)
$$
LA eng
TE Statistical analysis of the electromechanical behavior of AgMg
sheathed Bi_{2}Sr_{2}CaCu_{2}O_{8+x} superconducting tapes using
Weibull distributions
AU A.L.Mbaruku and J.Schwartz
PP 073913(5)
$$
DIELECTRICS AND FERROELECTRICITY
LA eng
TE Conducting grain boundaries in the high-dielectric-constant
ceramic CaCu_{3}Ti_{4}O_{12}
AU K.Chen, G.L.Li, F.Gao, J.Liu, J.M.Liu, and J.S.Zhu
PP 074101(4)
$$
LA eng
TE Thickness dependence of intrinsic dielectric response and
apparent interfacial capacitance in ferroelectric thin films
AU N.A.Pertsev, R.Dittmann, R.Plonka, and R.Waser
PP 074102(9)
$$
LA eng
TE Relaxorlike dielectric dynamics in the lead-free
K_{0.5}Na_{0.5}NbO_{3}-SrZrO_{3} ceramic system
AU Vid Bobnar, Janez Holc, Marko Hrovat, and Marija Kosec
PP 074103(4)
$$
LA eng
TE A study of the growth of Lu_{2}O_{3} on Si(001) by synchrotron
radiation photoemission and transmission electron microscopy
AU M.Malvestuto, M.Pedio, S.Nannarone, G.Pavia, G.Scarel,
M.Fanciulli, and F.Boscherini
PP 074104(9)
$$
LA eng
TE Electromagnetic and microwave absorption properties of
(Co^{2+}-Si^{4+}) substituted barium hexaferrites and its
polymer composite
AU S.M.Abbas, R.Chatterjee, A.K.Dixit, A.V.R.Kumar, and T.C.Goel
PP 074105(6)
$$
LA eng
TE Far-infrared and dielectric spectroscopy of relaxor
ferroelectric (Pb_{1-x}La_{x})(Zr_{0.4}Ti_{0.6})O_{3}
AU E.Buixaderas, D.Nuzhnyy, S.Veljko, S.Kamba, M.Savinov,
J.Petzelt, and M.Kosec
PP 074106(8)
$$
LA eng
TE Composition dependence of the domain configuration and size in
Pb(Zr_{1-x}Ti_{x})O_{3} ceramics
AU Ljubomira A.Schmitt, Kristin A.Schoenau, Ralf Theissmann,
Hartmut Fuess, Hans Kungl, and Michael J.Hoffmann
PP 074107(7)
$$
LA eng
TE Ferroelectric characteristics of BiFeO_{3} thin films prepared
via a simple chemical solution deposition
AU A.Z.Simo~es, A.H.M.Gonzalez, L.S.Cavalcante, C.S.Riccardi,
E.Longo, and J.A.Varela
PP 074108(6)
$$
LA eng
TE Domain growth kinetics and wall strain behavior in BaMgF_{4}
ferroelectric crystal by piezoresponse force microscopy
AU Huarong Zeng, Kiyoshi Shimamura, Encarnacion G.Villora,
Shunji Takekawa, and Kenji Kitamura
PP 074109(5)
$$
LA eng
TE Growth of ferroelectric bismuth lanthanum nickel titanate thin
films by rf magnetron sputtering
AU Masafumi Kobune, Koji Fukushima, Toru Yamaji, Hideto Tada,
Tetsuo Yazawa, Hironori Fujisawa, Masaru Shimizu,
Yasuo Nishihata, Daiju Matsumura, Jun'ichiro Mizuki,
Hideshi Yamaguchi, Yasutoshi Kotaka, and Koichiro Honda
PP 074110(6)
$$
LA eng
TE Structure and electrical properties of
K_{0.5}Na_{0.5}NbO_{3}-LiSbO_{3} lead-free piezoelectric ceramics
AU Dunmin Lin, K.W.Kwok, K.H.Lam, and H.L.W.Chan
PP 074111(6)
$$
LA eng
TE Memory effect in Sm C^{*} phase of electroclinic liquid crystals
AU A.Choudhary, S.Kaur, G.Singh, J.Prakash, A.K.Thakur, and
A.M.Biradar
PP 074112(6)
$$
LA eng
TE Hafnium zirconate gate dielectric for advanced gate stack
applications
AU R.I.Hegde, D.H.Triyoso, S.B.Samavedam, and B.E.White, Jr.
PP 074113(7)
$$
NANOSCALE SCIENCE AND DESIGN
LA eng
TE Thermoelectric properties of n-type nanocrystalline
bismuth-telluride-based thin films deposited by flash evaporation
AU M.Takashiri, M.Takiishi, S.Tanaka, K.Miyazaki, and H.Tsukamoto
PP 074301(5)
$$
LA eng
TE Low energy ion beam assisted deposition of a spin valve
AU J.J.Quan, S.A.Wolf, and H.N.G.Wadley
PP 074302(4)
$$
LA eng
TE Hollow oxide formation by oxidation of Al and Cu nanoparticles
AU R.Nakamura, D.Tokozakura, H.Nakajima, J.-G.Lee, and H.Mori
PP 074303(7)
$$
LA eng
TE Molecular dynamics simulation of thermal transport at a
nanometer scale constriction in silicon
AU Sanjoy K.Saha and Li Shi
PP 074304(7)
$$
LA eng
TE Magnetoresistance of magnetic tunnel junctions with low barrier
heights
AU N.N.Beletskii, G.P.Berman, S.A.Borysenko, S.A.Wolf, and
V.M.Yakovenko
PP 074305(7)
$$
LA eng
TE Biocatalytic growth of semiconductor nanowires
AU S.Rath, S.N.Sarangi, and S.N.Sahu
PP 074306(5)
$$
LA eng
TE Temperature dependent shape transformation of Ge nanostructures
by the vapor-liquid-solid method
AU K.Das, A.K.Chakraborty, M.L.NandaGoswami, R.K.Shingha, A.Dhar,
K.S.Coleman, and S.K.Ray
PP 074307(4)
$$
DEVICE PHYSICS
LA eng
TE The electric field dependence of Cu migration induced dielectric
failure in interlayer dielectric for integrated circuits
AU Sang-Soo Hwang, Sung-Yup Jung, and Young-Chang Joo
PP 074501(5)
$$
LA eng
TE Crystallization process and amorphous state stability of
Si-Sb-Te films for phase change memory
AU J.Feng, Z.F.Zhang, Y.Zhang, B.C.Cai, Y.Y.Lin, T.A.Tang, and
Bomy Chen
PP 074502(5)
$$
LA eng
TE Influence of low temperature thermal annealing on the
performance of microcrystalline silicon thin-film transistors
AU Kah-Yoong Chan, Eerke Bunte, Helmut Stiebig, and Dietmar Knipp
PP 074503(6)
$$
LA eng
TE Measurements of metal gate effective work function by x-ray
photoelectron spectroscopy
AU Yuri Lebedinskii, Andrei Zenkevich, and Evgeni P.Gusev
PP 074504(5)
$$
LA eng
TE Vector network analyzer ferromagnetic resonance of thin films on
coplanar waveguides: Comparison of different evaluation methods
AU C.Bilzer, T.Devolder, P.Crozat, C.Chappert, S.Cardoso, and
P.P.Freitas
PP 074505(5)
$$
LA eng
TE The theory of ion beam induced charge in
metal-oxide-semiconductor structures
AU G.Vizkelethy, D.K.Brice, and B.L.Doyle
PP 074506(6)
$$
LA eng
TE Robust optimization in electromagnetic scattering problems
AU Dimitris Bertsimas, Omid Nohadani, and Kwong Meng Teo
PP 074507(7)
$$
APPLIED BIOPHYSICS
LA eng
TE Protein destruction by a helium atmospheric pressure glow
discharge: Capability and mechanisms
AU X.T.Deng, J.J.Shi, and M.G.Kong
PP 074701(9)
$$
LA eng
TE Numerical simulation on the mechanical characteristics of
double-stranded DNA under axial stretching and lateral unzipping
AU C.A.Yuan, G.Q.Zhang, C.N.Han, K.N.Chiang, and Y.Cui
PP 074702(8)
$$
INTERDISCIPLINARY AND GENERAL PHYSICS
LA eng
TE Interplay of explosive thermal reaction dynamics and structural
confinement
AU W.Lee Perry, Jonathan Zucker, Peter M.Dickson, Gary R.Parker,
and Blaine W Asay
PP 074901(5)
$$
LA eng
TE Transverse transport of solutes between co-flowing
pressure-driven streams for microfluidic studies of
diffusion/reaction processes
AU Jean-Baptiste Salmon and Armand Ajdari
PP 074902(7)
$$
LA eng
TE The effect of front ZnO:Al surface texture and optical
transparency on efficient light trapping in silicon thin-film
solar cells
AU Michael Berginski, Juergen Huepkes, Melanie Schulte,
Gunnar Schoepe, Helmut Stiebig, Bernd Rech, and Matthias Wuttig
PP 074903(11)
$$
LA eng
TE Impedance of a planar solenoid with a thin magnetic core
AU Behzad Rejaei and Marina Vroubel
PP 074904(6)
$$
LA eng
TE Temperature-dependent magnetic resonance force microscopy
studies of a thin Permalloy film
AU E.Nazaretski, J.D.Thompson, R.Movshovich, M.Zalalutdinov,
J.W.Baldwin, B.Houston, T.Mewes, D.V.Pelekhov, P.Wigen, and
P.C.Hammel
PP 074905(4)
$$
LA eng
TE Systematic study of microwave absorption, heating, and
microstructure evolution of porous copper powder metal compacts
AU J.Ma, J.F.Diehl, E.J.Johnson, K.R.Martin, N.M.Miskovsky,
C.T.Smith, G.J.Weisel, B.L.Weiss, and D.T.Zimmerman
PP 074906(8)
$$
COMMUNICATIONS
LA eng
TE Comment on Low Schottky barrier to etched p-GaN using regrown
AlInGaN and InGaN contact layer [J. Appl. Phys. 99, 026106
(2006)]
AU C.Y.Ho
PP 076101(1)
$$
LA eng
TE Controlling line-edge roughness and reactive ion etch lag in
sub-150 nm features in borophosphosilicate glass
AU Parijat Bhatnagar, Siddhartha Panda, Nikki L.Edleman,
Scott D.Allen, Richard Wise, and Arpan Mahorowala
PP 076102(3)
$$
LA eng
TE Adsorption-desorption noise influence on mass sensitivity and
dynamic range of nanoresonators with rough surfaces
AU G.Palasantzas
PP 076103(3)
$$
Just another example of how the man knew how to make stuff. I have no idea what a schottky barrier transistor is ????? LOL
Sorry for all the posts but this guy really did make a lot of things. So does the Bio Harp work???? It should. Looks like the dude knew how to invent stuff. Here is another example of something he made. Notice that Sam's patents deal a lot with manufacturing.
Method of manufacturing a broad stamper
Abstract: A method of manufacturing a broad stamper is disclosed. Using a method that includes: stacking a first mask, in which a first pattern is perforated, on a positive photoresist layer; exposing an upper surface of the first mask to light; developing the positive photoresist layer to form an intaglio; and molding such that a relievo is formed, which is in correspondence with the intaglio, a broad stamper having multiple levels can be manufactured with a simple process. (end of abstract)
Agent: Staas & Halsey LLP - Washington, DC, US
Inventors: Seung-Hyun Ra, Choon-Keun Lee, Sang-Moon Kee, Jae-Choon Cho
USPTO Applicaton #: #20080057444 - Class: 430322 (USPTO)
(WO/2006/014069) REAR SENSOR SYSTEM OF CARBiblio. DataDescriptionClaimsNational PhaseNoticesDocumentsLatest bibliographic data on file with the International Bureau
Permanent LinkBookmark this page
--------------------------------------------------------------------------------
Pub. No.: WO/2006/014069 International Application No.: PCT/KR2005/002516
Publication Date: 09.02.2006 International Filing Date: 02.08.2005
IPC: B60Q 9/00 (2006.01)
Applicants: OPTMIX CO., LTD. [KR/KR]; 881-2 Ogdong, Gwangsangu, Gwangj 506-500 (KR) (All Except US).
KWON, Dae-Woong [KR/KR]; (KR) (US Only).
Inventor: KWON, Dae-Woong; (KR).
Agent: LEE, Sang-Moon; Rm401, Hwawon B/D 746-1, Yeoksam-dong,
Kangnam-gu, Seoul 135-925 (KR) .
Priority Data: 10-2004-0061203 03.08.2004 KR
Title: REAR SENSOR SYSTEM OF CAR
Abstract: Disclosed herein is a rear sensor system for a car. The rear sensor system (100) is constructed so that a microwave sensor (110), a control unit (120), a warning sound generating unit (130), and a reverse light (140) are installed in one housing (150) to be operated in conjunction with each other. Thus, by mounting the rear sensor housing (150) to a car in the manner of installing or replacing the conventional reverse light, all components constituting the rear sensor system can be easily mounted to the car. Further, additional wiring work for connecting the components to each other is not required.
Designated States: AE, AG, AL, AM, AT, AU, AZ, BA, BB, BG, BR, BW, BY, BZ, CA, CH, CN, CO, CR, CU, CZ, DE, DK, DM, DZ, EC, EE, EG, ES, FI, GB, GD, GE, GH, GM, HR, HU, ID, IL, IN, IS, JP, KE, KG, KM, KP, KZ, LC, LK, LR, LS, LT, LU, LV, MA, MD, MG, MK, MN, MW, MX, MZ, NA, NG, NI, NO, NZ, OM, PG, PH, PL, PT, RO, RU, SC, SD, SE, SG, SK, SL, SM, SY, TJ, TM, TN, TR, TT, TZ, UA, UG, US, UZ, VC, VN, YU, ZA, ZM, ZW.
African Regional Intellectual Property Org. (ARIPO) (BW, GH, GM, KE, LS, MW, MZ, NA, SD, SL, SZ, TZ, UG, ZM, ZW)
Eurasian Patent Organization (EAPO) (AM, AZ, BY, KG, KZ, MD, RU, TJ, TM)
European Patent Office (EPO) (AT, BE, BG, CH, CY, CZ, DE, DK, EE, ES, FI, FR, GB, GR, HU, IE, IS, IT, LT, LU, LV, MC, NL, PL, PT, RO, SE, SI, SK, TR)
African Intellectual Property Organization (OAPI) (BF, BJ, CF, CG, CI, CM, GA, GN, GQ, GW, ML, MR, NE, SN, TD, TG).
Publication Language: English (EN)
Filing Language: Korean (KO)
I am just getting started. Looks like Sam was working on a way to keep the homeboys cars from getting jacked in the hood back in 1995. Sounds like a nice invention that could have been used for car alarms and other security systems.
Inventor
Lee, Sang-Moon
Assignee
Lee; Sang-Moon
Yoon; Ja-Young
Application
No. 511694 filed on 08/04/1995
US Classes:
73/12.08, Specimen directly subjected to a fluid pressure pulse or wave73/12.09, Specimen impactor detail340/566Vibration
Examiners
Primary: Chilcot, Richard
Assistant: Dougherty, Elizabeth L.
Attorney, Agent or Firm
Tungol; Maria Parrish, Parrish; John A.
International Class
G01M 007/00
Foreign Application Priority Data
1994-08-06 KR
Description
Couplers
Opto.Toshiba.com TLP117 - 5V 50Mbps IC coupler TLP2066 - 3.3V 20Mbps IC coupler
FIELD OF INVENTION
This invention relates to a multi-purpose shock sensor which can be used as a vehicle burglar alarm system for restricted areas.
BACKGROUND OF INVENTION
As is well known in the industrial field, in order to detect a shock on a vehicle burglar alarm or system, a Piezo sensor or a sensing unit consisting of a coil with a magnet functioning by shock, or a sensing unit consisting of a switch which would be switched on/off by vibration has been used.
In a Piezo sensor perceiving a shock there is the disadvantage that the life time of the sensor is limited due to use of a metal vibration sheet which is highly corrosive. Also, the sensitivity is not satisfactory.
On the other hand, a sensor consisting of a coil and a magnet suffers the disadvantage that a flexible suspending means such as a rubber bar must be activated by an external shock. This type of sensor is also complicated to assemble and disassemble, and also has a large volume.
Additionally, in a sensor consisting of a switch which can be switched on/off by a shock, there is the disadvantage that, due to the need for the switch contact to be activated by a shock, that sensitivity is not satisfactory.
Applicant has previously provided an enhanced sensitivity shock sensor. The sensor includes a cap that is enclosed on its upper part and is open on its bottom. A vibration sensing element such as a condenser microphone is inserted and fixed in the bottom of the cap. A sealed cavity is provided between the cap and the vibration sensing element. A rounded edge for attaching a metallic balance weight protrudes from one end of the cap. This embodiment shows the advantage of enhanced anti-corrosivity due to the sealed construction. Also, due to its simple construction, manufacturing cost is lower. Also, because vibration inside the sealed cavity is induced in proportion to the magnitude of the shock by the balance weight, as well as due to the small and light construction of the system, the design can be simplified.
Output from the above-described enhanced sensitivity shock sensor is amplified by an amplifier and supplied to an alarm system, and thereafter functions as a sensor. However, this device has a disadvantage in that peripherals such as a rubber cap is apt to be damaged by tools during assembling and setting up, and by rough handling. Also, the cap could be weakened by long term exposure to undesirable atmospheres such as toxic and corrosive gas and/or temperature and humidity.
Also, the above prior art shock sensor could be activated by air flows which come from either vehicle crossings over different directions or from inside the vehicle when parked in a sunny place or from opening of the doors. These are disadvantages since the sensor should be activated only by shocks.
The prior art has also employed bonding to join a balance weight to a cap. Use of bonding to join the balance weight to the cap may cause problems such as undesirable movement of the balance weight under conditions of high temperature and high humidity so that the reliability could not be guaranteed.
SUMMARY OF THE INVENTION
The invention addresses the prior arts disadvantages and prolongs the life time through which an elastic rubber cap can be properly activated by upward, downward, left handed and right handed directional vibrations. Also, the cap is not damaged by tools etc. during assembly and setting-up. Also, the cap is not affected by the environmental conditions such as toxic gases, high temperature and high humidity.
The invention provides a unique shock sensor which is activated only by shock through which an elastic cap is activated only by the vibration from the shock rather than by air flows or very low frequency vibrations.
The invention enhances reliability of the sensor since the balance weight does not move around and is securely joined to the cap.
BRIEF DESCRIPTION OF THE INVENTION
The invention can be achieved by securely joining an elastic cap with a surrounding safety cover that has a diameter that is a little less than the diameter of the cap. A gap for providing a free surface and a fixing surface inside the safety cover is thus provided. A lid covers the upper part of the safety cover so that the elastic cap which encloses a vibration sensing element can be activated by outside vibration through the safety cover. The elastic cap thus is vibrated up and down as well as right and left with coupling (not bonding) of the balance weight to the cap, as will be described in detail according to a preferred embodiment as shown in the attached drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 shows a cross section of a shock sensor according to the prior art.
FIG. 2 shows a cross section of another shock sensor according to the prior art.
FIG. 3 shows a elevational view of the multipurpose shock sensor according to the invention.
FIG. 4 shows a an exploded view, partially in cross section of the multipurpose sensor according to the invention.
FIG. 5 shows a cross-sectional assembly view of the multipurpose sensor of FIG. 4.
FIG. 6 shows an elevational view of another embodiment of the sensor according to the invention.
FIG. 7 shows an exploded view of the sensor shown in FIG. 6.
FIG. 8 shows a cross-sectional view of the sensor shown in FIG. 6.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
As shown in FIG. 4 and FIG. 5, a first embodiment of the invention consists of a cap(1) which has a closed upper part and an open lower part. A vibration sensing element(3) is inserted and joined to the lower part of the interior of cap (1). Balance weight(8) couples onto the upper end of cap(1). Safety cover(2) securely joins to and surrounds elastic cap(1) to provide gap(5). Cover (2) has a fixing surface (4) which contacts element (3). Lid(7) is placed on safety cover(2) and a groove(12) is formed on the surface of balance weight(8). Coupling hole(9) is provided on the center of the top of cap(1). The diameter of coupling hole (9) is slightly less than the diameter of groove(12). After assembly, a sealed cavity(10) is provided inside cap(1) by positioning balance weight (8) in coupling hole(9) in the center of the top of the cap(1).
The invention first transfers vibration from an external shock to safety cover(2). This transfer can vibrate the entire safety cover(2). As a result of vibration of safety cover(2), the air inside cover (2) is vibrated, and the inside air thus vibrates elastic cap(1).
Even though cap(1) is joined to fixing surface(4), cap (2) can be vibrated in the space provided by gap(5). Thus, due to vibration of cap(1), air inside sealed cavity(10) vibrates and vibration sensing element(3) can sense the shocks. Element(3) then can generate electrical signals. The invention thus provides a high sensitivity shock sensor that can sense a weak external shock.
The output of vibration sensing element(3) is amplified by an amplifier and then supplied to an alarm system so that human life and assets can be protected.
According to the invention, rubber cap(1) is covered by safety cover(2) which is made of light weight synthetic resin such as ABS so that damage from contact by tools during assembly and setting-up can be avoided. Even when exposed to toxic gas, high temperature and high humidity, rubber cap(1) is protected by safety cover(2) so that deterioration can be prevented to provide a longer life-time.
Balance weight(8) is inserted into coupling hole(9) on the top of cap(1). By force on cap(1), groove(12) of balance weight(8) is tightened so that sealed cavity(10) is formed. Simultaneously, balance weight(8) is more securely joined to cap (1) than by bonding so that balance weight(8) is prevented from moving. Therefore the reliability of the sensor can be increased.
The invention provides a sensor that is not activated by air flow or vibration so that it is possible to use a unique shock sensor.
In the prior art, elastic cap(1) would be vibrated by air flow, and accordingly the shock sensor would be activated as if a shock had occurred. Accordingly, a sensor that is not activated by air flow is needed.
In this invention, light-weight safety cover(2) is not vibrated by the air flow, and accordingly, rubber cap(1) also is not been vibrated. Thus, output from the sensor would not occur.
Accordingly, activation due to air flow can be prevented, and it is possible to supply a suitable shock pursuant to the applications, and to reduce malfunctions.
As shown in FIG. 6 and FIG. 8, the center of lid(7) includes opening (11). Cap(1) is vibrated by air extrusion due to air flow from inside safety cover(2). The sensor thus can be used as a very low frequency and shock perceiving sensor which can sense a door opening etc. From this, a variety of applications could be developed.
According to the invention, cap(1) is prevented from being damaged during handling and from deterioration by toxic gas, high temperature and high humidity so that reliability can be enhanced.
Also, balance weight(8) is safely fixed and prevented from being moved so that products can be more reliable.
Further, there could be more applications for selective manufacturing to perceive door openings while also sensing very low frequencies according to requirements.
* * * * *
Here is another one of Sam and friends toys from 2005. I have no idea what it is but is sounds technical. LOL
A measurement method of the resonantly enhanced gain spectrum and its effect on second harmonic generation in vertical-external-cavity surface-emitting laser (VECSEL)
Jun-Youn Kim; Soohaeng Cho; Gi Bum Kim; Seong-Jin Lim; Jaeryung Yoo; Junho Lee; Sang-Moon Lee; Ki-Sung Kim; Taek Kim; Yongjo Park; Jongin Shim;
Samsung Adv. Inst. of Technol., Suwon, South Korea
This paper appears in: Lasers and Electro-Optics Society, 2005. LEOS 2005. The 18th Annual Meeting of the IEEE
Issue Date: 22-28 Oct. 2005
On page(s): 543 - 544
Print ISBN: 0-7803-9217-5
INSPEC Accession Number: 8901970
Digital Object Identifier: 10.1109/LEOS.2005.1548119
Date of Current Version: 05 December 2005
Abstract
A measurement method of resonantly enhanced gain profiles in vertical-external-cavity surface-emitting lasers is developed. By applying the method with LBO as intra-cavity frequency doubler, a second-harmonic-generation efficiency of 15% and a stable output power of 2 W are realized.
I can understand that. The Bio Harp consumed many years of his work.
04-16-2009 he works with some other scientist and patents a new kind of semi-conductor. It is all greek to me. Notice the orgin was VA. Looks like Sam has a company in VA.
Patent application title: Complementary metal oxide semiconductor device and method of manufacturing the same
Inventors: Dong-hun Kang Joong S. Jeong Sang-moon Lee Kwang-hyeon Baik
Agents: HARNESS, DICKEY & PIERCE, P.L.C.
Assignees:
Origin: RESTON, VA US
IPC8 Class: AH01L27092FI
USPC Class: 257190
Read more: http://www.faqs.org/patents/app/20090095981#ixzz144yOjmEM
I found this business info on google also. Maybe we can call Sam and chat
Sang Moon Lee Inc
14050 Darkwood Circle
Centreville, VA 20121-4839 map
Phone:(703) 266-4287
Notice VA ???????????
He may stay in debt forever. The dude does his best work in the lab. He should let someone else handle his finances. Sometimes people are really intelligent in some areas but lack good judgement in others. We all know people that are smart but they can not handle money. Its like they have no understanding of it. A lab rat may not have understood what 500,000,000 shares of stock was last year. We undestand that it would have been 1/2 a billion dollars or more by this time. But he may have been too focused on something under the microscope in his lab to get the point.
At least we know he is a talented scientist. That was my point. As far as why he changed his mind and it took a court battle for us to get what we paid for, that is anyones guess. It is all in the past now. Xtend Medical is gearing up for Bio Harp production.
It only takes a few minutes to look at some of Lee's other work to determine that this is not a scam. The man invents things and now we own one of his inventions. It adds validity to the Bio Harp. If it were some fly by night scientist it would subtract validity in my opinion. Its all documented for the world to read.
As you can see Lee filed that patent on 02-25-2010. He has probably been working on this e-paper invention for a while. The guy must like to stay in the lab.
Lets talk about Lee for a minute. Anyone wonder what he has been doing with his time. Try working. I really think this guy is way past a genius. Maybe an idiot when it comes to business but he just patented another device and it sounds really cool. And no it is not anything like the Harp. Maybe Bio-paper.
This is just some of the info on this e-paper.
Patent application title: ELECTRONIC PAPER DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF
Inventors: Sang-Moon Lee Hwan-Soo Lee Yongsoo Oh Jeong-Bok Kwak
Agents: MCDERMOTT WILL & EMERY LLP
Assignees:
Origin: WASHINGTON, DC US
IPC8 Class: AG02F1167FI
USPC Class: 359296
Patent application number: 20100033805
BACKGROUND
[0002]1. Technical Field
[0003]The present invention relates to an electronic paper display device and a method of manufacturing the electronic paper display device.
[0004]2. Description of the Related Art
[0005]Great changes are required today in ways of transmitting and sharing information, in correspondence with a new paradigm that is required in the information society. To meet this, the development of flexible electronic paper, which is also called e-paper, has been accelerated and has entered an initial stage of commercial development.
[0006]E-paper is much cheaper in production cost than the conventional flat panel display. Since e-paper does not use a backlight to illuminate its pixels, and does not need to be recharged constantly, it can have superior energy efficiency, while running at very low energy. Moreover, e-paper is very clear, has wider viewing angles, and is capable of holding text and images indefinitely without electricity.
[0007]Due to such advantages described above, e-paper may indeed have a variety of applications and have an enormous market potential. Applications may include e-books that have a paper-like surface and are capable of displaying digital versions of books, e-paper magazines with moving illustrations, self-updating newspapers, reusable paper displays for mobile phones, disposable TV screens and electronic wallpapers.
[0008]E-paper can be realized through several different methods, including an LCD, an organic EL, a reflective film display, electrophoresis, a twist ball, an electro-chromic method and a mechanically reflective display. In the twist ball and electrophoresis methods, display units are interposed between an upper board and a lower board. Here, uniform placement of the display units is an important factor in determining the quality of displayed images. Accordingly, a number of studies are underway to develop a technology for disposing the display units uniformly and easily.
SUMMARY
[0009]The present invention provides an electronic paper display device and a method of manufacturing the electronic paper display device that can adjust a distance between display units and the shape of the display units and arrange the display units on a plane without using a binder.
[0010]An aspect of the present invention provides a method of manufacturing an electronic paper display device. The method in accordance with an embodiment of the present invention includes forming a plurality of partition walls on a lower board, in which the partition walls partition the lower board into cells, disposing a display unit in the cell, and attaching an upper board on an upper part of the plurality of partition walls such that the display unit is covered.
[0011]The display unit can be a capsule including a positively-charged (+) particle and a negatively-charged (-) particle dispersed in a fluid. Here, the height of the partition walls can be smaller than the height of the capsule. Also, one of the (+) particle and (-) particle can be a black particle made from carbon black and the other of the (+) particle and (-) particle can be a white particle made from titanium oxide.
[0012]The display unit can be two or more kinds of capsules including a charged color particle dispersed in a fluid. The disposing of the display unit in the cell can be performed by closing a portion of the cell and opening another portion of the cell and then injecting the capsule into the opened cell. Also, the disposing of the display unit in the cell can be performed by placing a filter with a number of pores on the lower board and then injecting the capsule into the cell through the pores of the filter.
[0013]Moreover, the disposing of the display unit in the cell can be performed by opening a cell in which a capsule having a same color is to be disposed and closing another cell and then injecting one kind of capsules having a same color into the opened cell. Here, the cell, in which the one kind of capsules having the same color is injected, is closed, and a cell, in which another kind of capsules having a different color is to be disposed, is opened, and then another kind of capsules having a different color can be injected into the opened cell.
[0014]The display unit can be a rotating body having optical and electrical anisotropy.
[0015]The forming of the plurality of partition walls can include stacking a resin layer on the lower board, preparing a stamp having relievo and intaglio patterns formed therein, and pressing the stamp on the resin layer.
[0016]The height of a partition wall formed at an outermost end of the lower board can be greater than the height of an adjacent partition wall.
[0017]The partition walls can be made of a material selected from a group consisting of polycarbonates (PC), polyethylene terephthalate (PET), polyethersulfone (PES), polyimide, an epoxy system, a urethane system and a polyester system.
[0018]The disposing of the display unit can include piling a plurality of display units randomly on the lower board and vibrating the lower board.
[0019]The disposing of the display unit can include disposing a filter having pores on an upper portion of the lower board, in which the filter corresponds to the cell, and injecting a capsule into the cell through the filter.
[0020]The method can also include removing an overfilled display unit from the cell, performed between the disposing of the display unit and the attaching of the upper board.
[0021]The method can also include coating a resin on an upper portion of the display unit, performed between the disposing of the display unit and the attaching of the upper board.
[0022]Another aspect of the present invention provides an electronic paper display device. The electronic paper display device in accordance with an embodiment of the present invention include a lower board, in which one surface of the lower board has a plurality of partition walls and the partition walls partition the lower board into cells, a display unit, which is disposed in the cell, and an upper board, which is stacked on an upper portion of the plurality of partition walls so as to cover the display unit.
[0023]The height of a partition wall formed at an outermost end of the lower board can be greater than the height of an adjacent partition wall.
[0024]The display unit can be a capsule including a positively-charged (+) particle and a negatively-charged (-) particle dispersed in a fluid. Here, one of the (+) particle and (-) particle can be a black particle made from carbon black and the other of the (+) particle and (-) particle can be a white particle made from titanium oxide.
[0025]The display unit can be two or more kinds of capsules having a fluid, in which a charged color particle is dispersed. Here, the capsule can be three kinds of capsules representing red, green and blue, respectively, and the capsule can be two kinds of capsules representing complementary colors.
[0026]The capsule can include a black particle having different charged properties from the charged color particle, and can have a circular shape, an oval shape or a cylindrical shape.
[0027]The display unit can be a rotating body having optical and electrical anisotropy.
[0028]The partition walls can be made of a material selected from a group consisting of polycarbonates (PC), polyethylene terephthalate (PET), polyethersulfone (PES), polyimide, an epoxy system, a urethane system and a polyester system.
[0029]Additional aspects and advantages of the present invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention
Read more: http://www.faqs.org/patents/app/20100033805#ixzz144oSJYMN
I would love to know how many hours Paul has worked since last January trying to fix the mess that Lee created. Just his time. If we knew the answer to that question, it would help us understand that it took a hell of a lot of work to keep Xtend Medical and the shareholders out of harms way. I will have to admit, I thought we were all dead ducks last April. But we held our shares and the victory is ours. If Paul works 1/2 as hard now, we will be fine. Its all going to come together when we least expect it.
In my mind that is the one thing that has testified to the validity of the Bio Harp. Paul invested a lot of time and money fighting Lee in court to get the Bio Harp. He had to be 100% confident that he could market this device. Pauls victory has kept our rear ends from going back down to .0001. That is where we would be if he had lost the battle. Paul did not come this far to drop the ball now. It will be smooth sailing and it is just going to take some time.
Yes that is the Bio Harp being used. When I looked at that picture, I was like "WOW" there really is a Bio Harp. Now I know why I purchased XMDC. Its all about that picture. The device is very real and XMDC owns it. Now we have just got to market it and the fun will begin.
The share structure has alaways been in the I-Box and it has been updated regularly for the past 18 months as far as I know.
Give Paul a few months and I think you will see the Bio Harp being advertised in some form. He will have to get the word out to help sales. He must build them first. We are simply in the early stages.
Too funny. I looked at the link poseted for GoDaddy and the websites look very nice. I think the pps is hurting because everyone wants to see this "Bio Harp". Well, good news for the crowd. We will see it soon and the stock will go back up. Two things that I am sure about.
There is nothing wrong with being skeptical. A lot has happened. A working device needs to be seen. The ball is in Paul's court. Personally, seeing a working device is not going to help me much. I would like to see about 10,000 working devices. Then we will be cooking with gas. But I can understand your concerns considering this has all been blind faith that the device actually works as they described. I actually have less doubts now, after all that Paul has done to get his hands on it. It helped me understand that this is not some fly by night deal.
I could be wrong but there was already a working video done on the Bio Harp. It was in the court documents. Seems like Paul was trying to get it from the company in Korea (Genoco). He has his attorney demand that Sam turn all this stuff over back then. Needless to say Sam was less than cooperative.
Yes, time will tell. My timeline for XMDC is not what some want to hear because they will not be rich next week. But here goes:
less than 1 month - New Website
less than 2 months- manufacturing begins
less than 4 months - uplisting is complete, sales begin (animals and horticulture), FDA trials begin
less than 1 year - FDA approval; sales to doctors, clinics, hospitals, and tons of others
less than 2 years - XMDC turns HUGE revenues and profits and uplists to Nasdaq. They become a MAJOR player in the medical diagnostic device field.
The sky if truely the limit within a few years. And I can wait. Today, next weel, or even next month does not matter when you look at the big picture. Xtend Medical is moving forward and for the first time in 9 months "time is on our side".
That is the my opinion of the timelines for XMDC.
They will uplist to OTCBB or OTCQX. Probably the first of next year. It is my understanding that they have to finish the audit. They had to secure the Bio Harp assets for the proper valuation. Should be blue skies ahead. GO XMDC. Take us out of pink land. LOL
I agree with you. Paul has told us that he will uplist. He has mentioned it several times in his prs and he has a lawyer in place to do it. When they uplist, they will have to report everything on a regular basis. This will make Xtend Medical a fully reporting company and provide the transparency that investors like to see. I understand everyones frustration becuase we simply do not know all the details. Thsi should change soon. One more thing to keep in mind is that we never knew the details of the original APA last year. We had to take Pauls word back then that it was completed. After Lee messed everything up, we were able to see the original APA in the court documents. Paul had done everything by the book and his victory in mediation proves it. So, I must give him the benefit of the doubt that he has taken the proper steps to launch the Bio Harp. If history repeats itself, Paul will be doing this by the book. Sometimes faster is not always better.
And Paul will execute his business plan. He just got the Bio Harp and be is busy working. When we get FDA approval for this devcice, everything will change. Lets give Paul a chance now that he has what he needs.
That is correct. We knew that it would take Paul some time to get everything rolling with the Bio Harp. Paul has had 9 months to plan the chain of events that will unfold in the next few months. Each of the events will add value for the shareholders and boost the Bio Harp into the market place. He increased the available shares for a reason and Paul knows exactly what he is doing. I feel confident that he will protect us. So, I am glad he increased the A/S. It tells me that he is working on things and taking the steps to launch the Bio Harp.
Yes. The approval process can be faster based on history from other countries approval. Personally, I only care about FDA appoval myself. Notice on 08/25/2010 they said "Our goal is to make sales initially in the veterinary sector while preparing to submit the BioHarp to the FDA for clearance to market to the healthcare sector." My opinion is that they are intersted in FDA approval and they may do KFDA at a later time. It would simply be easier for Paul to do it here first. Approval and sales close to home. Once things are rolling, I am sure he will go global. Plus, the pr kind of hints that he is strating here first. So what happened to KFDA and the Korean exchange??? My answer is that Paul has had it with Korea for the time being. I know it would be about the last place that I would want to do business. Plus, this way the Bio Harp will be a product made and sold in the USA. That is fine by me.
Actually, it was probably a lot more than that. And the fact that they have not had any revenue. Can you imagine how much money they could have already made if Lee had not caused this horrible delay. Paul has had to pay all the bills with no revenue. He could have been selling shares the entire time. But he has not and will not take advantage of the shareholders.
That is correct. In fact, when Paul had the 504 offering last year (selling shares to raise money), he only sold enough shares to get the maney for manufacturiis the units. He did not put millions in the bank or take advantage of it. He could have done anything back then but he only took what he needed. The court documents told it all. Paul is clean. Could he change his mind now and go to vegas with our money??? Yes he can and we would all be mad. But that is not going to happen. He is just trying to get the Bio Harp to market. Then we can all go to vegas.
The Bio harp detects cancer. A man the I know was just diagnosed with prostate cancer. On a scale from 1 to 10, his doctor said it was a 9.9 and surgery was not an option. The dude has no time left. The Bio Harp could have detected this some time ago in the early stages of his cancer. This device is going to sell faster than any other medical device to hit the market in a long time when Paul gets FDA approval. If paul needed to raise the A/S, so be it. Lets focus on what its all about - The Bio Harp. I will make a deal with everyone that questions the new share sructure. If Paul sells all the shares for cash to buy a new boat, I will personally turn into a basher. But that is not happening. He is just trying to get the units to market and he will be conservative and protect the shareholders.
I just love reading how this thing detects cancer.
When biological electro-magnetic signals from a subject or a living body is measured by the diagnostic device including the material for the detection of biological electro-magnetic signals of the invention, "green" or "yellow" indicators are shown uniformly as shown in FIGS. 10 and 11 in the case that the health condition of subjective mouse is very normal or normal. However, in the case of inflammation, a "red" indicator is shown uniformly as shown in FIG. 12. In the case of cancer, "red" and "yellow" indicators are shown irregularly as shown in FIG. 13.
There are more shares availabled but we do not know that they are outstanding. Paul has had a large amount of asvailable shares in the past and he did not use them until he purchased the Bio Harp. We will be fine.
Seems like the court docs also said that the Bio Harp found another problem on Paul that he was NOT aware of when he was scanned in his office. Paul knows first hand that the device works. And here is something else that I thought about. Lets says vets start using the device on animals and they have a slow day at work. Why not scan themselves??? Sure the FDA has not approved this usage yet. So what???? People are going to use this device to better their health the day they recieve it. Its just human nature to better ourselves. Word will spread fast.
The restricted shares were issued to buy the Bio Harp. I thought it was a good deal when you consider the revenue potential. Technically it is dillution but in my opinion it is not as bad as selling 500,000,000,000 shares for cash like my other pink sheets stocks did. LOL.
Before the apa they were not resticted my friend.
That is a great idea becuase there is no way in hell it is dillution until they are outstanding shares. Not going to be the case. The shares will not see the market.
The a/s was 1 billion for xmdc for over 2 yeras. During that time there was just under 300,000,000 outstanding shares on the market. They never touched the rest of the shares until the Bio Harp deal came along. 2/3 of the stock was simply kept in the treasury for years. Paul was not interested in dillution and I doubt he is now.