• 산업노동연구
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• 제24권2호
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• pp.61-94
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• 2018

노동조합의 비정규 노동자 조직화가 답보 상태를 보이고 있는 가운데 새로이 등장하고 있는 주변부 노동자의 이해대표 기제가 바로 시민사회단체(Civil Society Organization, CSO)이다. 강제력이 있는 단체교섭 협약에 기반한 노조의 이해대표와 달리 CSO의 경우, 상담과 옹호 홍보 교육 등의 방법을 통해 주변부 노동자의 이해를 대변한다. 한국의 경우에도 2000년대 이후 '비정규센터'로 불리우는 노동 CSO가 확산되기 시작하였다. 조사 결과, 지자체 위탁비정규센터는 대부분의 재원을 지자체로부터 충당하고 있기에 비정규노동 관련 이해대변 활동이 제약되고 있을 개연성을 드러내 보이고 있다. CSO는 기부자와 대표되는 자, 양자의 이해를 대변하는 과정에서 일종의 딜레마로 인한 제약과 한계를 안고 있기 때문이다. 그럼에도 한국의 비정규노동 CSO는 노동조합의 이해대변 역할을 보완 보조할 수 있는 가능성을 드러내 보이고 있다. 이런 점에서 노동조합과 CSO의 연대를 통해 한국 사회 저조한 미조직 비정규 노동자의 이해대변을 확충할 수 있을 것이다.

• 한국진공학회:학술대회논문집
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• 한국진공학회 2015년도 제49회 하계 정기학술대회 초록집
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• pp.64-64
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• 2015

Control of plasma processing methodologies can only occur by obtaining a thorough understanding of the physical and chemical properties of plasmas. However, all plasma processes are currently used in the industry with an incomplete understanding of the coupled chemical and physical properties of the plasma involved. Thus, they are often 'non-predictive' and hence it is not possible to alter the manufacturing process without the risk of considerable product loss. Only a more comprehensive understanding of such processes will allow models of such plasmas to be constructed that in turn can be used to design the next generation of plasma reactors. Developing such models and gaining a detailed understanding of the physical and chemical mechanisms within plasma systems is intricately linked to our knowledge of the key interactions within the plasma and thus the status of the database for characterizing electron, ion and photon interactions with those atomic and molecular species within the plasma and knowledge of both the cross-sections and reaction rates for such collisions, both in the gaseous phase and on the surfaces of the plasma reactor. The compilation of databases required for understanding most plasmas remains inadequate. The spectroscopic database required for monitoring both technological and fusion plasmas and thence deriving fundamental quantities such as chemical composition, neutral, electron and ion temperatures is incomplete with several gaps in our knowledge of many molecular spectra, particularly for radicals and excited (vibrational and electronic) species. However, the compilation of fundamental atomic and molecular data required for such plasma databases is rarely a coherent, planned research program, instead it is a parasitic process. The plasma community is a rapacious user of atomic and molecular data but is increasingly faced with a deficit of data necessary to both interpret observations and build models that can be used to develop the next-generation plasma tools that will continue the scientific and technological progress of the late 20th and early 21st century. It is therefore necessary to both compile and curate the A&M data we do have and thence identify missing data needed by the plasma community (and other user communities). Such data may then be acquired using a mixture of benchmarking experiments and theoretical formalisms. However, equally important is the need for the scientific/technological community to recognize the need to support the value of such databases and the underlying fundamental A&M that populates them. This must be conveyed to funders who are currently attracted to more apparent high-profile projects.