• Applied Microscopy
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• 제48권1호
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• pp.17-26
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• 2018

The characteristic features of the arachnid central nervous system (CNS) are related to its body segmentation, and the body in the Opiliones appears to be a single oval structure because of its broad connection between two tagmata (prosoma and opisthosoma). Nevertheless, structural organization of the ganglionic neurons and nerves in the harvestman Leiobunum japonicum is quite similar to the CNS in most other arachnids. This paper describes the fine structural details of the main groups of neuropiles in the CNS ganglia revealed by the transmission electron microscopy. In particular, electron-microscopic features of neural clusters in the main neuroganglia of the CNS (supraesophageal ganglion, protocerebral ganglion, optic lobes, central body, and subesophageal ganglion) could provide indications for the nervous pathways associated with nerve terminations and plexuses. The CNS of this harvestman consists of a supraesophageal ganglion (brain) and a subesophageal mass, and there are no ganglia in the abdomen. Cell bodies of neuroganglia are found in the periphery, but central parts of the ganglia are mostly fibrous in all ganglia. Neuroglial cells occupy the spaces left by nerve cells. Since the nerve cells in the ganglia are typical composed of monopolar neurons, axons and dendrites of neurons are distributed along the same direction.

• Applied Microscopy
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• 제28권3호
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• pp.363-377
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• 1998

After the investigation on the eye of Incilaria fruhstorieri with light and electron microscopes, the following results were obtained. The eye of Incilaria fruhstorferi comprises cornea, lens, vitreous body, retina, and optic nerve inward from the outside. Cornea is composed of squamous, cuboid, columnar and irregular cells, which appear to be light due to their low electron density. In their cytoplasms, glycogen granules, multivesicular body, and nucleus were observed. Vitreous body, located behind non-cellular transparent lens, is filled with long and short microvilli protruding from the retinal epithelia. Retinal epithelium, the organ to perceive objects, is divided into four parts; microvillar layer pigment layer, nuclear layer, and neutrophils layer, from the apical portion. Microvillar layer consists of the type-I photoreceptor cells and pigmented granule cells. In the apical portion of their cytoplasms, long microvilli (length, $19{\mu}m$) , short microvilli (length, $8{\mu}m$), and rolled microvilli grow thick in the irregular and mixed forms. Photoreceptor cells are classified into type-I and type-II, according to their structures. The type-I cell has the apical portion rising roundly like a fan and the lower part which looks like the helve of a fan. In the cytoplasm of the apical portion, there are clear vesicles, cored vesicles, ovoid mitochondria, and microfilaments, and in the cytoplasm of the lower part, photic vesicles with their diameters about 60nm aggregate densely. The type-II photoreceptor cell, located at the lower end of the type-I cells, has a very large ovoid nucleus 3nd no microvilli. In the cytoplasm of the type-II cell, the photic vesicles with sizes 60nm aggregate more densely than in the cytoplasm of the type-I cell. Pigmented cells are classified into type-A and type-B, according to their structures. The type-A is identified to be a large cell containing round granules (diameter, $0.5{\mu}m$) of very high electron density, while the type-B is identified as a small cell where the irregular granules (diameter, $0.6{\mu}m$) of a little lower electron density amalgamate. Nuclear layer ranges from the bottom of pigment layer to the top of the capsule, and contains three kinds of nuclei (nuclei of the type-II photoreceptor cell, pigmented granule cell, and accessory neuron). The capsules covering the outmost part of the eyeball are composed of collagenous fiber and three longitudinal muscle layers (the thickness of each longitudinal muscle layer, $0.4{\mu}m$) and thick circular muscle layer (thickness, $0.3{\mu}m$). Around the capsules, there is a neurophile layer consisting of neurons and nerve fibers. Each neuron has a relatively large ovoid nucleus for its cytoplasm, and in the karyosome, large lumps of keterochromatin form a wheel nucleus.

• 한국세라믹학회지
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• 제40권5호
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• pp.475-480
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• 2003

금 미립자를 ZrO$_2$중에 분산시켜 비선형광학재료, 선택흡수막 및 투과막 등 새로운 기능성 재료로 활용하기 위하여 Au/ZrO$_2$나노복합체 박막을 제조하였다. 딥-코팅법에 의해 제조한 박막을 열처리한 후 그 특성을 엑스선 회절분석,분광분석, 주사탐침현미경 및 전자현미경 등을 이용하여 조사하였다. Au/ZrO$_2$ 박막은 150 nm의 두께를 보였으며, 박막의 표면에 분산된 금 미립자의 크기는 15~35 nm였으며, 표면거칠기는 약 1.06 nm로 막질이 우수하였다. 그리고 가시광선 영역인 600~650 nm의 파장범위에서 금 미립자의 플라즈마 공명에 의한 흡수 피_크를 나타내어 비선형광학성을 확인할 수 있었다.

• Journal of Magnetics
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• 제11권4호
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• pp.182-188
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• 2006

The search for high-density recording materials has been one of most active and vigorous field in the field of magnetism. $FePt-L1_{0}$ nanoparticle has emerged as a potential candidate because of its high anisotropy. In this paper, we provide an overview of recent work at Argonne National Laboratory that contributes to the ongoing dialogue concerning the relation between structure and properties of the FePt nanoparticle system. In particular we discuss the ability to control structure and properties via dosing with Cr. Cr-dosed FePt films were grown via molecular beam epitaxy and annealed at $550^{\circ}C$ in an ultrahigh vacuum chamber, and were studied with the surface magneto-optic Kerr effect (SMOKE), scanning electron microscopy (SEM) and x-ray magnetic circular dichroism (XMCD). We found that small dosage of Cr helps to generate $L1_{0}$ phase FePt magnetic nanoparticles with small size, defined shape and regular spatial distribution on MgO (001) substrate. The nanostructures are ferromagnetic with high magnetic coercivity (${\sim}0.9T$) and magnetic easy axis in the desired out-of-plane orientation. We also show that controlling the lateral region where nanostructures exist is possible via artificial patterning with Cr.

• 한국진공학회:학술대회논문집
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• 한국진공학회 1998년도 제14회 학술발표회 논문개요집
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• pp.41-41
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• 1998

Rare earth metal films have been used as a buffer layer for growing ferroelectric t thin film or a seed layer for magnetic multilayer. But when it was deposited on s semiconductor substrates for the application of magneto-optic (MO) storage media, it i is difficult to exactly measure magnetic cons떠nts due to shunting current, and so it n needs to grow metal films on insulator substrate to reduce such effect. Recently, it w was reported that ultra-thin Pt layer were epitaxially grown on A12O:J by ion beam s sputtering in 비떠 high vacuum and it can be used as a seed layer for the growth of C Co-contained magnetic multilayer. In this stu$\phi$, Pt thin film were epi떠xially grown on AI2D3 ($\alpha$)OJ) by RF magnetron s sputtering. The crystalline structure was analyzed by transmission electron microscope ( (TEM) and Rutherford Back Scattering (RBS)/Ion Channeling. In TEM study, Pt was b believed to be twinned on AI잉3($\alpha$)01) su$\pi$ace about Pt(ll1) plane.Moreover, RBS c channeling spectra showed that minimum scattering yield of Pt(111)/AI2O:J(1$\alpha$)OJ) was 4 4% and Pt(11J)/AI2D3($\alpha$)OJ) had 3-fold symmetry.

• Applied Microscopy
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• 제15권1호
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• pp.59-70
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• 1985

Morphogenesis of rat retina was studied by light and electron microscope from day 14 of gestation to 55 days after birth. The results indicate as follows: 1. At the outer border of the neuroblastic layer at the 14th day of gestation, cells she wed active mitotic figures which result in the increases of thickness and differentiations of this layer. 2. At birth, rat retina is still in a premature state. But, it is begining to approach its adult condition in appearance till the 9th postnatal day. Particulary photosensitive cells are fully developed by the 14th postnatal day, so they are functional from now on. 3. It is observed that the pigment epithelium begins differentiation at the fetal period, but is not functional urtil birth 4. The pigment epithelium differentiates earlier than the neuroblastic layer. It is suggested that these two layers are so closely associated that the pigment epithelium takes part in the differentiations of the neuroblastic layer. In conclusion, rat retina is differentiated soon after the optic cup formation before the 14th day of gestation, but even new born rat retina is not functional, and then it has function as photoreceptors coincided with the eye opening.

• 한국진공학회:학술대회논문집
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• 한국진공학회 2000년도 제18회 학술발표회 논문개요집
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• pp.141-141
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• 2000

In situ surface magneto-optic Kerr effect(SMOKE), X-ray photoelectron spectroscopy(XPS) and low energy electron diffraction(LEED) were used to study magnetic and structural properties of ultrathin Fe films grown on the Pd(111) surface. The SMOKE measurement showed strong enhancement of ferromagnetism after proper annealing process. Simultaneous changes in morphology was checked by LEED and XPS. After room temperature Fe deposition. longitudinal magnetization appeared above a critical thickness between 2.0 and 2.5 monolayers. When annealed at 450K, 2.0 monolayer Fe film exhibited boty longitudinal and polar magnetizations while 3.0 and 5.5 monolayer films showed little changes. After annealing at 600K, both magnetizations were totally destroyed in 2.0 monolayer film, but longitudinal magnetization was enhanced in 3.0 monolayer film. In the case of 5.5 monolayer film, it was only after 660K annealing that the enhancement of the longitudinal magnetization was observed. It was concluded that the surface flatness and the amount of intermixing were critical in the development of surface magnetism of this system.

• 한국진공학회:학술대회논문집
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• 한국진공학회 2009년도 제38회 동계학술대회 초록집
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• pp.366-366
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• 2010

Single crystalline Fe/NiO bilayers were epitaxially grown on Ag(001) and on MgO(001), and investigated by Low Energy Electron Diffraction (LEED), Magneto-Optic Kerr Effect (MOKE), and X-ray Magnetic Linear Dichorism (XMLD). We find that while the Fe film has an in-plane magnetization in both Fe/NiO/Ag(001) and Fe/NiO/MgO(001) systems, the NiO spins switch from out-of-plane direction in Fe/NiO/MgO(001) to in-plane direction in Fe/NiO/Ag(001). These two different NiO spin orientations generate remarkable different effects that the NiO induced magnetic anisotropy in the Fe film is much greater in Fe/NiO/Ag(001) than in Fe/NiO/MgO(001). XMLD measurement shows that the much greater magnetic anisotropy in Fe/NiO/Ag(001) is due to a 90o-coupling between the in-plane NiO spins and the in-plane Fe spins which causes a switching of the NiO spins during the Fe magnetization reversal.

• 공업화학
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• 제18권1호
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• pp.77-83
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• 2007

2차 비선형 광학 소재는 광 도파로 응용을 위해 조화파 파장영역에서 낮은 광 진행 손실을 가져야 한다. 이를 위하여 분자에 전자 당김 작용기로 니트로기, 시안기 및 알킬슬폰기가 각각 도입된 세 가지의 쌍극자형 발색단 물질이 합성되었다. 시안기 및 슬폰기를 갖는 발색단의 자외-가시 흡수 스펙트럼은 니트로기를 갖는 발색단에 비해 단파장으로 이동하였다. 또한, 크로모포 분자에 옥사디아졸 연결기를 도입한 결과 광흡수 스펙트럼이 단파장으로 이동하는 유사한 특성을 관찰하였다. 이러한 단파장으로 이동하는 특성은 2차 조화파의 낮은 광손실을 유도할 것이다. 합성된 크로모포는 이미드 고분자에 곁사슬기 형태로 도입하였다. 합성된 고분자의 비선형 광학 성질은 $1.55{\mu}m$ 파장 영역에서 전기광학계수를 측정하고 변환을 통하여 결정하였다. 시차열량 분석계와 열중량 분석계를 이용하여 이들 고분자의 물성 측정을 진행한 결과 $185^{\circ}C$ 이상의 높은 유리전이 온도와 $300^{\circ}C$까지 열적으로 안정함을 보였다.

• Applied Microscopy
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• 제32권2호
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• pp.175-183
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• 2002

한국 연근해산 살오징어와 서해낙지의 시엽에서 신경전달물질을 분비하는 neuron의 특성 및 기능을 확인하기 위해 rabbit anti-dopamine (TH)과 rabbit anti-calbindin-$D_{28K}$ 등의 항체를 이용한 면역염색과 면역금지법을 시행한 결과는 다음과 같았다. 항-dopamine을 사용한 면역염색 결과 살오징어에서는 외과립세포층 상단에 위치한 대형 무축삭세포와 수질부의 섬을 이루는 세포들 중 $2{\sim}3$개의 비교적 소량의 세포만이 양성반응을 보인 반면, 서해낙지에서는 외과립세포층 상단 및 중간 부위의 $2{\sim}3$개의 세포와 수질부섬을 이루는 5개 이상의 세포에서 강한 양성반응을 보였다. 항-calbindin-D28k인 경우는 살오징어의 외과립세포층 상단에 위치한 $2{\sim}3$개의 소형 무축삭세포와 내과립세포층 하단에 위치한 $1{\sim}2$개의 세포에서 양성반응을 보인 반면, 서해낙지인 경우는 외과립세포층에서 4개 정도의 세포에서 양성 반응을 보였으나, 내과립세포층에서는 반응을 확인할 수 없었다. 면역금지법을 시행한 결과 살오징어에서는 항-dopamine과 항-calbindin에 면역반응을 보인 세포들의 세포질 $0.5{\mu}m^2$당 $17{\sim}26$개 정도의 비교적 많은 수의 금입자가 표지된 반면, 서해낙지에서는 세포질 $0.5{\mu}m^2$당 평균 10개 정도인 소량의 금입자만이 표지되어, 살오징어가 서해낙지에 비해 표지된 금입자가 거의 2배 정도 많았다.