New Physics: Sae Mulli

Aims and Scope

The origin of New Physics: Sae Mulli (NPSM, ISO abbreviation: New Phys.: Sae Mulli.): Sae Mulli (새물리 in Korean characters means ‘new physics’) is the oldest Korean pure scientific journal. It was first published in 1961 just after the Korean War by the Korean Physical Society (KPS). The primary mission of Sae Mulli was to start building up Korean physics research community from almost nothing and in fact Sae Mulli had made tremendous contributions to the Korean science community. Through a peer-review system, Sae Mulli had continued elevating the level of scientific researches, consequently becoming a cornerstone of the economic miracle of Korea...

Editor-in-Chief : Sunglae CHO
New Physics: Sae Mulli Editorial Board

pISSN : 0374-4914
eISSN : 2289-0041

Tel : +82-2-556-4737
Fax : +82-2-554-1643
E-mail: npsm@npsm-kps.org

Research Papers

Femtosecond-Laser Fabrication of Microfluidic Filters

Dae-Young LEE, Ki-Soo LIM*

Department of Physics, Chungbuk National University, Cheongju 28644, Korea

We used femtosecond laser pulses to develope two micro-filters with a of T-shape for separating particles with sizes of 10 $\mu$m and 2 $\mu$m, and particles with sizes of 1 $\mu$m and 200 nm sizes. The diameters of the microchannels were controlled by using the laser intensity, scan speed, and scan number. A distributed profile of the particles injected into a channel was observed by using a confocal fluorescence microscope, and the filter function was studied by measuring the fluorescence spectra of the particles transmitted by a fabricated waveguide. We also observed the profile of the inner surface of the channel by using a scanning electron microscope and measured the change in the flow of the water along the channel.

New Phys.: Sae Mulli 2019; 69: 606-611

Pattern Synthesis of Designed Graphene by using a LASER Scribing Process

Dong Yun LEE¹, Jungtae NAM¹, Keun Soo KIM²

¹Department of Physics, Sejong Univerity, Seoul 05006, Korea

²Department of Physics and Astronomy, Sejong Univerity, Seoul 05006, Korea

In this study, a LASER scribing process in a vacuum chamber was used to reduce the process time and the energy consumption significantly and pattern synthesis of graphene into the desired shape was carried out. For this purpose, a LASER-assisted

chemical vapor deposition (CVD) was used and a negative tone resist polymer film was coated onto various substrate, such as metal foil, quartz, and quartz coated with a thin metal film, to be used as a solid carbon source for graphene synthesis. On such a prepared substrate, patten synthesis of graphene by LASER ($\lambda=1064$ nm, pulse) local heating method was performed in a vacuum chamber, and each sample was evaluated by Raman spectroscopy to optimize the synthesis conditions. In the case of a metal substrate, the synthesis of patterns of graphene was difficult due to the good thermal conductivity of the metal. For the quartz substrates, the optimized conditions for graphene synthesis were a power of 1.4 W, a scan speed of 1 mm/s, a frequency of 30 kHz, and five exposures. For the quartz substrate coated with a 300 nm Ni film. The optimized conditions were a power of 1.8 W, a scan speed of 2 mm/s, a frequency of 30 kHz and one exposure.

New Phys.: Sae Mulli 2019; 69: 590-595

New Phys.: Sae Mulli 2019; 69: 590~678

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Research Papers

Pattern Synthesis of Designed Graphene by using a LASER Scribing Process

Dong Yun LEE, Jungtae NAM, Keun Soo KIM

New Phys.: Sae Mulli 2019; 69: 590-595 https://doi.org/10.3938/NPSM.69.590