State Key Laboratory approved by the Ministry of Science and Technology and the Chinese Academy of Sciences in 1990
synonymState Key Laboratory of Magnetism (Institute of Physics, Chinese Academy of Sciences)(Scientific research institutions) generally refer to the State Key Laboratory of Magnetism and Magnetic Materials
State Key Magnetics and Magnetic MaterialslaboratoryIt was founded in 1934Institute of Physics, Chinese Academy of SciencesIt was gradually established on the basis of the modern magnetic research laboratory. In 1951, it was officially established as a magnetic laboratory. In 1987, it was approved as an open laboratory of magnetism of the Chinese Academy of Sciences. In 1990, it was approved by the Ministry of Science and Technology and the Chinese Academy of Sciences as a national key laboratory of magnetism.The research direction of the magnetic laboratory is: guided by the basic research of magnetic physics, with the materials with important application background -- rare earth transition intermetallics and oxidesSpintronicsWe will focus on the basic magnetism of materials and the effects of magnetoelectricity, magnetocaloric, magneto-optical, etc., explore the internal relationship between the micro electronic structure, mesoscopic, interface, composite phase and macro magnetism, and explore the magnetic physics of new materials and new materials with artificial structures.
Chinese name
State Key Laboratory of Magnetism and Magnetic Materials
Note: "_" refers to postdoctoral personnel, and "*" refers to personnel not in the institute at present.
research contents
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The State Key Laboratory of Magnetism, guided by the basic research of magnetic physics, takes magnetic materials with important application background as the object to carry out research on the basic magnetism, magnetic transport, macro quantum effects and magnetic, electric, thermal and optical cross effects of materials, and discusses the internal relationship between micro electronic structure, surface and interface effects and macro magnetism,Explore new magnetic materials and new artificial nanostructured materials and devices.
Main research directions and contents of the laboratory
Study the magnetic theory and macroscopic quantum effect of Mn12, Fe8 and other nano molecular magnets
2. Research on nano spintronics
To study the transport properties of spintrons at nanometer scale, explore new magnetoelectronic materials, and design new magnetoelectronic devices.
3. Giant magnetoresistance effect of oxides
The structure, magnetism, magnetoresistance effect and the physical mechanism of giant magnetoresistance effect of rare earth transition oxides are studied.
4. Structure, magnetism and magnetic entropy change of rare earth transition compounds, nanocrystalline rare earth permanent magnetic materials and physics
The crystal structure, magnetic structure, intrinsic magnetism, phase transition, magnetocaloric effect and the physical mechanism of magnetic entropy change of rare earth transition group intermetallics are studied.
The structure, microstructure, domain structure, phase structure and permanent magnetism of nanocrystalline rare earth permanent magnetic materials, and the permanent magnetic theory of nanocrystalline rare earth materials are studied.
5. Analysis of crystal structure and magnetic structure of magnetic materials
The crystal structure and magnetic structure of magnetic materials are studied by neutron diffraction and X-ray diffraction, and the relationship between magnetic structure and magnetism is discussed.
6. Growth and physical properties of magnetic single crystals
Study on the growth, large magnetostriction, shape memory and large strain effect of magnetic single crystals.
7. Atomic force and magnetic microscopy
The domain structure, magnetization process and magnetization reversal process of magnetic materials are studied.
The internal relationship between micro magnetism and macro magnetism of magnetic materials is studied by using nuclear techniques such as Mossbauer spectroscopy and electronic structure calculation.
Management regulations
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These Regulations are formulated to provide a good working environment in the State Key Laboratory of Magnetism, make various management work effective, and ultimately promote the continuous improvement of scientific research and academic level.
These regulations are formulated on the basis of the Administrative Measures of the State Planning Commission on the Construction of National Key Laboratories and the Administrative Measures of the Chinese Academy of Sciences on Open Research Laboratories. They will be improved on the basis of the existing regulations after being discussed at the general meeting of the office affairs meeting and approved by the leaders.
Since the effective date of these regulations, all work of the laboratory must comply with the current regulations.If it is found that there is a real need to modify and improve, any unit or individual can put forward suggestions for modification, so as to facilitate the continuous development and improvement of these Regulations;However, before the new revised regulations are determined, they must be implemented in accordance with the existing regulations.In case of special circumstances, it can be implemented as a supplementary regulation after being discussed and approved by the office affairs meeting.
organization structure
1. The Chinese Academy of Sciences is the competent department of the State Key Laboratory of Magnetism, and the Institute of Physics of the Chinese Academy of Sciences (hereinafter referred to as the Institute of Physics) is its undertaking unit.
2. The fixed personnel of the laboratory are all affiliated to the Institute of Physics, and should comply with the relevant regulations of the Institute of Physics on personnel, finance, management, etc.The organization and management of scientific research are relatively independent, and the academic committee review and laboratory director responsibility system are implemented.
3. The laboratory has a director who is recommended by the Institute of Physics and appointed by the Chinese Academy of Sciences for a term of five years.The laboratory has two to three deputy directors, who shall be nominated by the director and reported to the Chinese Academy of Sciences for record after being approved by the Institute of Physics.There shall be one academic secretary (concurrently) and one administrative secretary.All work of the laboratory shall be fully presided over and responsible by the office director, and assisted by the deputy director.The office affairs committee (referred to as the office affairs committee) is composed of the director, deputy director and secretary of the laboratory branch to handle daily affairs.More important matters will be discussed and dealt with in the expanded Housekeeping Committee.The expanded office committee includes the chief and deputy directors, academicians, academic secretaries and all project leaders.
4. The Academic Committee is responsible for discussing the academic direction of the laboratory.The Academic Committee is composed of high-level scientists in the field of their own disciplines (including those inside and outside the Institute of Physics), of which no less than two-thirds are members outside the Institute.The chairman of the Academic Committee shall be appointed with the approval of the Chinese Academy of Sciences;The academic members are recommended by the laboratory director and the director of the academic committee, and appointed after being approved by the Chinese Academy of Sciences. Each term of office is five years.
5. The specific responsibilities of the office affairs meeting include: organizing, guiding and inspecting topics;Organize academic activities at home and abroad;Talent cultivation;Report to the competent department regularly;Regularly evaluate and give guidance to the experimental work, scientific research achievements and personnel training of the National Laboratory.
6. The laboratory has an office, with an administrative secretary, who is hired after consultation between the relevant departments of the Institute of Physics and the head of the office to assist the director in organizing and coordinating the daily work of the laboratory and handling other affairs.Its specific responsibilities include: making statistics of achievements and published articles and establishing scientific and technological archives;Classify and convey the received documents and letters, draft and issue notices and letters;Collect statistical data, sort out and keep records of previous sessions;Summarize the evaluation materials;Prepare the annual report of the laboratory, file management of fixed and mobile personnel in the magnetic laboratory, conference work of various meetings, and reception of laboratory guests and visiting scholars;Establish information files of visitors and visitors;Be responsible for the allowance of the laboratory guest personnel, and handle miscellaneous expenses and reimbursement;And other matters assigned by the office director.
7. The laboratory has several research groups.The research group of the State Key Laboratory of Magnetism may also be the research group of the condensed matter center.The formal members of the research group are fixed researchers and technicians in the laboratory.The research team is relatively independent in terms of funding and operation of specific topics, but must accept the evaluation of the research direction and results organized by the laboratory, physics institute and superior departments.
Personnel management
1. When hiring and dismissing fixed personnel in the research group, the research group leader should first make suggestions, discuss and make decisions at the office affairs meeting, and then apply to the institute.After the discussion and approval of the office affairs meeting, he proposed to the Institute of Physics to recruit "100 Talents Plan" and other outstanding talents.The recruitment and dismissal of temporary workers shall be applied for by the project leader, and reported to the institute for approval after discussion and decision of the office affairs meeting.
2. Floating personnel include master students, doctoral students and postdoctoral students.The project leader is responsible for the determination of personnel and the arrangement of topics.
3. Management of going abroad: according to the relevant regulations on going abroad in the institute, the person going abroad shall apply, and the project leader shall sign for approval, and then go through the formalities for going abroad in the institute with the consent of any one of the chief and deputy directors.The project leader shall be responsible for all problems during the period of going abroad.If the overseas working hours need to be extended, the individual shall submit an application. The project leader shall submit the application to the laboratory director or deputy director on the premise that he/she does not affect his/her work. After approval, the application shall be submitted to the foreign affairs department and the Human Resources and Education Office of the Institute.Those who do not return after the time limit for going abroad and do not apply for extension will be subject to the foreign affairs management regulations of the institute.
4. The project leader shall be responsible for overseas meetings.
5. Domestic meeting management: to participate in meetings closely related to their own specialties, subject to the approval of the project leader, and pay the fees from the project funds.
6. All fixed personnel who want to leave the laboratory shall submit their resignation application to the office director 30 days in advance according to the requirements of the contract of the physics institute.According to work needs, the office director has the right to postpone or reject the resignation application of fixed personnel during their employment, and punish the laboratory workers who leave their posts without permission and endanger them.The office director has the right to adjust or terminate the appointment of the personnel who are poor in work quality, incompetent or seriously violate the laboratory management regulations and refuse to repent according to the relevant terms of the contract system employed by the physics department.
7. There are three types of guests: the first type refers to part-time researchers, specially invited visiting scholars, scientific and technological personnel and other staff who are not in the laboratory.Its personnel shall be appointed by the project leader according to the actual needs.The second is to jointly train personnel.Including postdoctoral, doctoral and master students.The third is to train personnel.It refers to the personnel engaged in various work in the laboratory for the purpose of further study.The guest personnel working in the laboratory shall accept the unified management of the laboratory and comply with various management regulations and rules and regulations. In case of serious accidents caused by violation of the regulations, they shall bear the responsibility.During the agreement or cooperation period, the passenger shall not terminate or violate the agreement at will;The project leader has the right to supervise and examine the work of the guest personnel according to the relevant regulations. For those who are incompetent or whose working hours cannot be guaranteed, the project leader can modify or terminate the agreement, or even dismiss them.
8. In the laboratory, the guest personnel and regular personnel have the same academic status.For example, you can participate in academic activities and enjoy office supplies, health care subsidies, etc. in the name of the laboratory after certain approval procedures.The laboratory will give corresponding living allowance to the guests in a certain way.
Direction topic
1. Academic research direction
Mainly engaged in basic research and application basic research of magnetic materials, specifically, under the guidance of basic research of magnetic physics, focusing on materials with important application background - rare earth transition group intermetallics and oxides, magnetic multilayers, giant magnetoresistance materials, etc., to carry out research on the basic magnetism and magnetoelectric, magnetocaloric, magneto-optical and other effects of materials, and explore the micro electronic structureThe internal relationship between mesoscopic, interfacial and composite phases and macro magnetism, the exploration of new materials and new artificial structural materials, and the research work of new interdisciplinary and magnetic theory direction.
2. Topics
(1) The research topics of each research group are around the research direction of the magnetic laboratory.Encourage interdisciplinary and cutting-edge research, and do something, but do nothing.The laboratory should give play to its traditional advantages and existing conditions.We do not encourage subjects unrelated to the direction of magnetic research in the magnetic laboratory.
(2) Each research group should have a clear academic direction and topic. The direction within a group should be consistent. There can be several topics, but it should not be a combination.
(3) Each research group should have a certain degree of freedom in the process of implementing the project plan.The team leader has the right to uniformly allocate the research work of the team members.The work of the members of the group should be carried out around the work of the group.
(4) The office affairs meeting and the academic committee are responsible for making suggestions on the work direction of the laboratory until it is adjusted.When necessary, the office committee has the right to organize and jointly tackle certain problems.
(5) The project leader shall report to the laboratory on the specified date, and make academic reports to the academic committee every year. Relevant written materials shall be submitted to the laboratory office for filing.
(6) The laboratory encourages domestic and foreign scientific workers who cooperate in research, or carry out work with their own subjects and funds and use laboratory conditions.
funds
1. The public funds for the laboratory shall be allocated by the national competent department, the Chinese Academy of Sciences and other units;The financial section of the Institute of Physics shall supervise the use of funds according to the financial system of scientific research institutions stipulated by the state.
2. Management of laboratory public funds: the scope of payment of laboratory public funds includes: rent and water and electricity fees for public offices, public equipment construction fees discussed and approved by the office affairs meeting, travel, meeting, office operation, academic exchange and entertainment fees related to laboratory management.For specific regulations, see<<Regulations on the Management of Funds for the State Key Laboratory of Magnetism>>.The office director and deputy director can approve general administrative and daily expenses.The use of significant expenses must be discussed by the housekeeping meeting.
3. Each research group has the right to use and approve the funds applied by the research group.The research team is responsible for the payment of postdoctoral and postgraduate research subsidies.
4. The office affairs committee can allocate the expenses from the laboratory funds for temporary key research tasks according to work needs.
5. The relevant personnel of the test team, equipment operation and maintenance costs are otherwise specified in the detailed rules.
device management
All instruments and properties of the laboratory (including all research groups) belong to the laboratory, and no one is allowed to take them as his own.The instrument management regulations of the laboratory are as follows:
1. The public instruments of the laboratory refer to the instruments and equipment purchased with the public funds of the laboratory, including all the instruments managed by the test team, and the instruments managed by the research team entrusted by the laboratory.The operation and maintenance costs of public instruments managed by the test team shall be borne by the test team.Some or all of the major maintenance projects will be undertaken by the laboratory after being discussed and approved by the office affairs meeting.The operation and maintenance costs of public instruments entrusted by the laboratory to the research group shall be borne by the relevant research group.
2. The public instruments managed by the test team are open to the outside and inside of the room, and the paid service is carried out by the relevant personnel of the test team.The public instruments entrusted by the laboratory to the research group should be open to other research groups in the room at a certain time every year, and the cost should be discussed and decided by the room affairs meeting.
3. The instruments purchased by each research group with the funds of the research group shall be operated and maintained by the research group.If personnel in other groups require to use the instrument, the group where the instrument is located shall actively cooperate and the operation cost shall be settled through negotiation.
4. Without the approval of the Room Affairs Committee, no one is allowed to take the instruments, equipment and experimental devices used or kept out of the room without authorization, and not to lend, rent or use them for other purposes;Without the consent of the project leader, no one is allowed to lend, replace or scrap the instruments and instructions in the project team.Large equipment shall be reported to the laboratory in writing before scrapping, and take effect after being approved by the office affairs meeting.
5. Whether the instrument is for public use or the instrument used by the research group, its direct supervisor is obliged to keep the main technical data and acceptance report of the equipment.Technical data of public instruments shall be submitted to the test team for archiving.
6. Each instrument and equipment and experimental device must establish a technical file, formulate "operating procedures and precautions", and assign a special person to be responsible for the storage, operation, maintenance, improvement, update and development of instruments and equipment.If necessary, the guest seat technicians can be specially invited to assist.
7. Instruments and equipment shall have operation records, recording operators, date, time and operation conditions.In case of major failure or loss, the operator shall timely report to the person in charge, organize repair, and fill in the report form in detail. After the person in charge signs comments, the operator shall report to the leader in charge of the laboratory to find out the cause and make corresponding treatment.
8. The operators of instruments, equipment and experimental devices must be familiar with and strictly abide by the "technical operating procedures and precautions" of the equipment used.Passengers can operate or operate independently under the guidance of fixed personnel and obey the unified arrangement of the laboratory after receiving technical training and the permission of the person in charge.In case of any abnormal condition or fault, the operator shall report to the person in charge of the equipment in time and solve it properly.For those who do not comply with the laboratory management regulations, deliberately violate the "technical operating procedures and precautions", and do not follow the advice, the person in charge of the relevant equipment has the right to raise questions or cancel their operating qualifications, and report to the laboratory for proper treatment.In case of accidents caused by operation against rules, losses caused by unauthorized disassembly, theft, disasters and vandalism caused by improper storage or violation of safety regulations, the research group of the operator shall timely compensate for the losses caused, and he/she shall check and bear corresponding responsibilities.Due to natural losses and accidents, the leader in charge of the laboratory, together with the relevant departments, will make a conclusion and sign the treatment opinions on the equipment damage report, which can exempt the compensation.
9. The personnel specially responsible for instruments and equipment shall carefully hand over the instruments when they leave their posts for a long time.The relevant responsible person and the technical personnel to be taken over shall jointly handle the handover procedures.
10. Instruments, equipment and technical data belonging to the laboratory shall not be taken out of the room without authorization.Without approval, it is not allowed to disclose the technical details, experimental data and results of the improvement of experimental instruments and equipment to others. Violators shall be treated according to the confidentiality provisions.
Exchange and cooperation
We actively encourage various academic exchanges and cooperation in the magnetic laboratory.
1. Internal communication of the laboratory: the laboratory will frequently organize internal academic reports of the whole laboratory, which can be in various forms.Both staff and students have the obligation to make a report once a year, which can introduce the progress of work, as well as the progress of a topic or direction.
2. Communication outside the laboratory: outdoor scientists with high level will be invited from time to time to make academic reports and pay remuneration.
3. Cooperative research: the ultimate goal of our cooperation is to improve our academic level.Cooperation abroad will aim at obtaining the latest information and the use of advanced instruments, while cooperation at home will focus on developing our instruments and conditions to achieve better results.
Health and safety
All personnel in the laboratory must comply with the relevant health and safety regulations and precautions of the laboratory.
1. Carefully check whether the water, electricity, lights, windows and doors are closed before leaving work to prevent water, fire, theft and other incidents.
2. Electric furnace shall not be used unless required by experiment.
3. No smoking in the laboratory.
4. Chemicals and raw materials should be managed in a special cabinet. Flammable and explosive chemicals should be placed in a fume hood and kept away from fire sources.
5. The cylinder and pipeline system of toxic gas shall be sealed to prevent gas leakage.
6. After the experiment is completed, the laboratory equipment must be cleaned, cleaned and sorted out, placed neatly, and kept in a neat and good working condition, so as to develop high-quality work habits.
Achievement reward
1. All scientific research achievements made by all personnel (including fixed personnel and floating personnel) of the State Key Laboratory of Magnetism during their work, study and visit in the laboratory using our scientific research conditions belong to the State Key Laboratory of Magnetism of the Chinese Academy of Sciences.When applying for achievements, writing papers, research reports and patent applications, our office should be noted as the completion unit.The full name of the magnetic laboratory is:
State Key Laboratory of Magnetism, Institute of Physics, Chinese Academy of Sciences (Chinese)
(State Key Laboratory of Magnetism, Institute of Physics, Chinese Academy of Sciences in English).
2. The unit signature right of the visiting guests (including senior visiting scholars and students) in our room shall be determined according to the contributions of both units.For those who have worked in our room for a long time (half a year or more), they mainly make use of the achievements and contributions made by the academic ideas, instruments and equipment and other scientific research conditions of the State Key Laboratory of MagneticsNegotiate with the relevant personnel (host) in our room to solve the problem.
3. The reward funds of the laboratory mainly come from the operating expenses and other royalties of the funds obtained in the name of the laboratory, as well as the external service fees, which will be used for the work reward of laboratory personnel.The scope of general performance award includes: achievement award, article publication, patent application, etc.The detailed rules are detailed in the Research Achievement Reward Rules, and special circumstances shall be discussed and decided by the room affairs meeting.
topic
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Project name
number
person in charge
Starting and ending time
Project category
one
Research on Materials, Physics and Devices of Magnetic Tunnel Junction
2002CB610601
Han Xiufeng
Zhan Wenshan
2002-2006
973 (a)
two
Microstructure Characterization Science of Spintronic Materials
2002CB610605
Cheng Zhaohua
2002-2006
973 (a)
three
Research on Magnetic and Semiconductor Nano Storage and Logic Devices Based on Spin and Quantum Effects
2006CB932200
Han Xiufeng
2006-2010
973 (a)
four
Study on Giant Magnetic Entropy Change of Rare Earth Transition Group Intermetallics at Room Temperature
2006CB601101
Shen Baogen
2006-2010
973 (a)
five
Magnetic transport of new 3d oxides under ultrahigh pressure
2005CB724402
Li Qing'an
2006-2010
973 (b)
six
Basic research on magnetic random access memory devices
KJCX1-SW-07-01
Han Xiufeng
2002-2006
Significant innovation of the institute (a)
seven
Pre fabrication of BSNS for Beijing Spallation Neutron Source
-
Feng Ji
2005-2007
Innovation oriented projects of the Institute (a)
eight
Experimental Study on Giant Magnetoresistance and Its Complex Physical Phase Diagram in Transition Metal Oxides
Sun Yang
2005-2007
Academic excellent doctoral dissertation
Special funds
nine
Super magnetoresistance effect and related physical properties in perovskite structured oxides
Sun Yang
2005-2007
Hundred Talents Plan
(a)
ten
Research on Magnetic Tunneling Junction with High Magnetic Field Sensitivity and Its Linear Output Magnetic Sensor
2006DFA01900
Han Xiufeng
2006-2009
Sino Irish International Cooperation Project of the Ministry of Science and Technology (a)
eleven
Study on Nanocontact Magnetoresistance Materials and Their Spin Electron Transport Properties
ten million two hundred and seventy-four thousand one hundred and three
Han Xiufeng
2004-2007
China Ireland International Cooperation Project of NSFC (a)
twelve
Micro fabrication of double barrier magnetic tunnel junctions and basic research on the application of spin transistors
fifty million five hundred and twenty-eight thousand one hundred and one
Han Xiufeng
Zhang Shufeng
2006-2008
National Foundation Committee
Overseas Outstanding Youth Fund (a)
thirteen
New generation of rare earth permanent magnetic film materials
fifty million three hundred and thirty-one thousand and thirty
Cheng Zhaohua
2004-2007
National Foundation Committee
Key funds (b)
fourteen
Spin Charge Orbit Coupling and Strange Electronic States in Doped Mott Insulators
ten million three hundred and thirty-four thousand and ninety
Sun Jirong
2004-2007
National Foundation Committee
Key funds (b)
fifteen
Study on Alloying and Micro mechanism of New Magnetostrictive Materials
fifty million five hundred and thirty-one thousand and ten
Wu Guangheng
2006-2009
National Foundation Committee
Key funds (b)
sixteen
Inorganic non-metallic magnetic materials
fifty million two hundred and twenty-five thousand two hundred and nine
Sun Jirong
2003-2006
National Foundation Committee
Fund for Distinguished Young Scholars (a)
seventeen
Metallic magnetic material
fifty million three hundred and twenty-five thousand one hundred and four
Han Xiufeng
2004-2007
National Foundation Committee
Fund for Distinguished Young Scholars (a)
eighteen
Magnetic Force Microscopy (MFM) Study of Nanomagnetic Structures with Small Magnetic Patterns
ten million three hundred and seventy-four thousand one hundred and ten
Han Baoshan
2004-2006
National Foundation Committee
General fund (a)
nineteen
Neutron Scattering Studies on the Spin Structure and Dynamics of Manganese Oxide Lattices
ten million three hundred and seventy-five thousand and eighty-eight
Wang Fangwei
2004-2006
National Foundation Committee
General fund (a)
twenty
Study on magnetic materials of forced high order alloys
fifty million three hundred and seventy-one thousand one hundred and one
Wu Guangheng
2004-2006
National Foundation Committee
General fund (a)
twenty-one
Resonant tunneling of double spin filtered and spin polarized tunnel junctions
fifty million three hundred and seventy-one thousand one hundred and two
Zhao Jiangao
2004-2006
National Foundation Committee
General fund (a)
twenty-two
Microstructure and magnetic exchange interaction of atomic diffusion barrier barrier in nano oxide layer
fifty million four hundred and seventy-one thousand and fifty-five
Cai Jianwang
2005-2007
National Foundation Committee
General fund (a)
twenty-three
Study on CoNiFeGa four element magnetic field controllable hyperelastic single crystal
fifty million four hundred and seventy-one thousand and fifty-six
Chen Jinglan
2005-2007
National Foundation Committee
General fund (a)
twenty-four
Study on Magnetic Anisotropy and Magnetic Moment Enhancement of Low Dimensional Confined Magnetic Nanoclusters
ten million four hundred and seventy-four thousand one hundred and thirty-two
Cheng Zhaohua
2005-2007
National Foundation Committee
General fund (a)
twenty-five
Study on Mossbauer Spectra of Fe based Magnetic Refrigeration Materials with Magnetic Phase Becoming Strong Field
ten million four hundred and seventy-five thousand one hundred and eleven
Di Naili
2005-2007
National Foundation Committee
General fund (a)
twenty-six
Study on magnetic field effect of p-n heterostructure based on manganite
ten million four hundred and seventy-four thousand one hundred and thirty-three
Sun Jirong
2005-2007
National Foundation Committee
General fund (a)
twenty-seven
Preparation and Oscillation Mechanism of Magnetic Tunneling Junction with Large Oscillating Tunneling Magnetoresistance
fifty million four hundred and seventy-one thousand and fifty-four
Zhu Tao
2005-2007
National Foundation Committee
General fund (a)
twenty-eight
Micro fabrication and physical study of semi metallic and amorphous magnetic metal composite tunnel junctions
ten million five hundred and seventy-four thousand one hundred and fifty-six
Han Xiufeng
2006-2008
National Foundation Committee
General fund (a)
twenty-nine
Study on Neutron Scattering of Molecular Magnets and Quantum Control of Mn12
ten million five hundred and five thousand and twenty-nine
He Lunhua
2006-2008
National Foundation Committee
General fund (a)
thirty
Study on the Magnetism and Magnetocaloric Effect of Rare Earth Fe/Mn Based Materials with Large Magnetic Entropy Change at Room Temperature
fifty million five hundred and seventy-one thousand one hundred and twelve
Shen Baogen
2006-2008
National Foundation Committee
General fund (a)
thirty-one
Study on Scattering Magnetoresistance of Heterogeneous Clusters in Martensitic Transformation
fifty million five hundred and seventy-one thousand one hundred and thirteen
Wu Guangheng
2006-2008
National Foundation Committee
General fund
equipment
Announce
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Magnetic material preparation equipment
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S/N
Instrument name
performance parameter
contact number
one
Vacuum Melting Furnace
-
eighty-two million six hundred and forty-nine thousand two hundred and fifty-one
two
Vacuum high temperature annealing furnace
-
eighty-two million six hundred and forty-nine thousand two hundred and fifty-one
three
Vacuum induction furnace
-
eighty-two million six hundred and forty-nine thousand two hundred and fifty-one
four
Metal single crystal growth furnace CGMS-3 CZ
2000°C, 20g-120g
eighty-two million six hundred and forty-nine thousand two hundred and forty-seven
five
Super metal multilayer magnetron sputtering equipment 750
Background vacuum: 5 × 10Pa
eighty-two million six hundred and forty-nine thousand and ninety-four
six
Ion etching machine LKJ-1C-100
150-1000eV, 0.05-1.0mA/cm
eighty-two million six hundred and forty-nine thousand two hundred and sixty-eight
seven
Laser deposition equipment
-
eighty-two million six hundred and forty-nine thousand two hundred and sixty-eight
eight
Type II laser molecular beam epitaxy system
6×10mbar,290K~ 1100K
eighty-two million six hundred and forty-eight thousand and seventy-five
nine
TMR developed magnetron sputtering system
3´10-7 Pa,300 ~ 900 K
82649268/8063
ten
In situ Mossbauer spectrometer/MBE/SPM/joint system
Better than 3 × 10-10mbar, STM/AFM working temperature: 15K~1200K
82649191/8083
eleven
Optical single crystal floating zone growth furnace
-
82649191/9282
Magnetic measuring equipment
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one
Superconducting quantum magnetometer MPMS-7
1.9-400 K, 0-+7T
82649271/9264
two
Vibration sample magnetometer Model 4 HF
100K-1000 K, +2.1T
eighty-two million six hundred and forty-nine thousand and ninety-four
three
Vibrating sample magnetometer 155
300K-1050K,+0.8T
82649271/9264
four
Magnetic torque meter TRT-2
77K-800K,0-+1T
eighty-two million six hundred and forty-nine thousand two hundred and thirty-eight
five
Full automatic hysteresis loop meter HG-500
173K-523K;5mm:2.8T,10mm:2.5T
eighty-two million six hundred and forty-nine thousand two hundred and thirty-eight
six
Magnetic balance MB-2
77K-1200K,0-1.2T
eighty-two million six hundred and forty-nine thousand two hundred and thirty-eight
seven
Magnetostriction measuring instrument
77K-300K,0-+2.1T
eighty-two million six hundred and forty-nine thousand two hundred and forty-seven
eight
Multi functional magnetic measurement system (PPMS)
1.8K-400K, He3 system: 0.4K-350K, 14T
82649271/8079
Phase composition, crystal structure and magnetic structure analysis equipment
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one
Automatic X-ray diffractometer D/Max-2400
-60-+140
82649271/9264
two
Triaxial neutron diffraction spectrometer
7.5 - 48mev, D E/E = 5%
eighty-two million six hundred and forty-nine thousand two hundred and sixty-seven
Observation and analysis equipment for morphology and magnetic domain structure
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one
Atomic microscope (AFM) Nanoscope IIIa
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82649248/8070
two
Magnetic Force Microscope (MFM) Nanoscope IIIa
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82649248/8070
Hyperfine interaction research equipment
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one
Mossbauer spectrometer
2K-1300 K, 0-9 T
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honor
Announce
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Award
Award year
Name of achievements
Award category
Grade
Winners
one thousand nine hundred and eighty
Seven kinds of microwave absorbing materials such as WXP-5
Major Science and Technology Award of Chinese Academy of Sciences
one
Zhan Wenshan, Pan Xizhe, Yu Boliang, Li Yumin, Ning Taishan, Meng Qing'an, etc
one thousand nine hundred and eighty-one
Study on γ - Fe2O3 and Co coated Ferrous Magnetic Particles
81 Year Major Achievement Award of Chinese Academy of Sciences
two
Wei Yunian, Huang Xicheng, Feng Yuanbing, Li Xiuying, Luo Helie, Sun Ke, Zhang Zhiying, Gong Wei
one thousand nine hundred and eighty-two
Cobalt coated and ferrous coated magnetic powder
Guangdong Excellent Science and Technology Award
two
Luo Helie, Sun Kezhang, Zhiying, Gong Wei, Huang Xicheng, Feng Yuanbing, Li Xiuying
one thousand nine hundred and eighty-two
Medium scale test with annual output of 30 tons of alkaline magnetic powder
Science and Technology Award of Guangzhou Science and Technology Commission in 1982
one
Wei Yunian, Huang Xicheng, Feng Yuanbing, Li Xiuying, Luo Helie, Sun Ke, Pan Xizhe
one thousand nine hundred and eighty-two
29Mb+- piece replaceable disk pack
82 Year Major Achievement Award of Chinese Academy of Sciences
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Luo Heli, Huang Xicheng, Institute of Physics in cooperation with Institute of Chemistry, Institute of Computing
one thousand nine hundred and eighty-three
Magnetism, Mossbauer Effect and Ferromagnetic Resonance of Fe Cr Co and Fe Cr Co Permanent Magnet Alloys
Beijing Achievement Award
three
Li De, Xin Lin, Wen Gui, Li Guodong, Institute of Physics, Beijing Municipal Metallurgy Institute, High Energy Institute
one thousand nine hundred and eighty-three
40T pulsed strong magnetic field magnetic measurement system
83 Year Major Achievement Award of Chinese Academy of Sciences
two
Yang Fuming, Wu Yongsheng, Zhao Xichao, Li Chujian, Hu Rongxian, Liu Cunhu
one thousand nine hundred and eighty-three
Preparation of magnetic powder by fluidization reduction
83 Year Major Achievement Award of Chinese Academy of Sciences
two
Luo Helie, Sun Kefeng, Yuanbing, Li Xiuying and Chemical Metallurgy Institute cooperate
one thousand nine hundred and eighty-four
Preparation of magnetic powder by fluidization reduction
Guangdong Excellent Science and Technology Award
two
Luo Heli, Sun Kefeng, Yuanbing, Physics Institute of Guangzhou Dyeing and Chemical Plant, Chemical Smelting Institute
one thousand nine hundred and eighty-four
Preparation of magnetic powder by fluidization reduction
Guangzhou Science and Technology Award
two
Luo Heli, Sun Kefeng, Yuanbing, Physics Institute of Guangzhou Dyeing and Chemical Plant, Chemical Smelting Institute
one thousand nine hundred and eighty-four
A new process for preparing magnetic powder by fluidization reduction
Annual Science and Technology Award of the Ministry of Chemical Industry
three
Li Xiuying, Huang Xicheng
one thousand nine hundred and eighty-six
200MB replaceable disk set and disk servo disk marking device
Science and Technology Progress Award of Chinese Academy of Sciences
one
Luo Helie and other participants, Institute of Chemistry, Institute of Physics, Shanghai Institute of Organic Chemistry
one thousand nine hundred and eighty-six
Low purity Nd-Fe-B third generation permanent magnetic material (8404 8405)
Science and Technology Progress Award of Chinese Academy of Sciences
one
Wang Zhen, Xi Wang Yizhong Attends the Electronic Institute
one thousand nine hundred and eighty-six
Low purity Nd-Fe-B third generation permanent magnetic material (8404 8405)
State Science and Technology Awards
one
Physical Institute
one thousand nine hundred and eighty-six
Micromagnetic Theory of Continuous Discontinuous Variation of Magnetization Distribution of Ferromagnet
Science and Technology Progress Award of Chinese Academy of Sciences
one
Pu Fuque, Li Bozang
one thousand nine hundred and eighty-six
Methods of Using Magnet to Prevent and Cure Cow Death and Elimination Caused by Iron Foreign Matter
Science and Technology Progress Award of Chinese Academy of Sciences
three
Institute of Physics, Institute of Developmental Biology Xu Xiaozhen Zhang Shougong
one thousand nine hundred and eighty-seven
Effect of Transition Elements on Structure, C Properties and Stability of FeB based Amorphous Alloys
Science and Technology Progress Award of Chinese Academy of Sciences
Micromagnetic Theory of Continuous Discontinuous Variation of Magnetization Distribution of Ferromagnet
National Natural Science Award
three
Pu Fuque, Li Bozang
one thousand nine hundred and eighty-eight
Low purity neodymium rare earth iron boron permanent magnetic materials
State Science and Technology Awards
one
Wang Zhenxi, Cao Yongjing, Huang Yongcheng, Wang Yizhong, Gong Wei, Feng Minying, Gao Jinglan, Wu Zonglin, Ding Shuxian, Zhao Zhongren, Zheng Guanze, Yu Boliang, Wu Jinhua, Yang Xiancheng, Institute of Electronics
one thousand nine hundred and eighty-nine
Formation of Bloch Line in Bubble Wall under Pulse Bias Magnetic Field
Natural Science Award of Chinese Academy of Sciences
three
Han Baoshan, Li Jingyuan, Nie Xiangfu, Mao Tingde, Liu Yinglie, Tang Guide, Ling Jiwu, Fan Shiyong, Xi Wei
one thousand nine hundred and ninety
Study on the Properties of Manganese based Alloy Magneto optical Disk Films
Natural Science Award of Chinese Academy of Sciences
two
Wang Yinjun, Shen Jianxiang, Guan Zetong, Tang Qian, Li Zhaohui
one thousand nine hundred and ninety-one
<<Quantity and unit>>National standard
State Bureau of Technical Supervision
two
Luo Heli
one thousand nine hundred and ninety-two
Magnetism and Structure of NaFeB Thin Strip and Thin Film
Jiangsu Science and Technology Progress Award
two
Shen Baogen, Institute of Physics, Nanjing University, etc
one thousand nine hundred and ninety-three
Stability of hard domains in dc bias field and internal field
Hebei Provincial Education Commission Science and Technology Progress Award
two
Han Baoshan, Institute of Physics, Hebei Normal University
one thousand nine hundred and ninety-three
Research on Mechanism of Bloch Line Memory
Natural Science Award of Chinese Academy of Sciences
three
Han Baoshan, Nie Xiangfu
one thousand nine hundred and ninety-three
Magnetic properties and phase structure of a new metastable Fe3B alloy
Natural Science Award of Chinese Academy of Sciences
three
Shen Baogen, Yang Linyuan, Gu Benxi, Zhang Junxian, Ning Taishan, Hu Ming, Wo Feng, Zhao Jiangao, Guo Huiqun, Cui Hongru, Zhang Zhiying, Cao Lei, Yang Hong
one thousand nine hundred and ninety-four
Magnetic properties and stability of rapidly quenched metal base alloys
Natural Science Award of Chinese Academy of Sciences
