Parameters of the magnetic field in the Local Galactic ARM Derived from low Frequency Absorption Measurements in the Ionized Gas

Parameters of the interstellar magnetic field - the strength ratio of the regular and the isotropic component and the orientation of the regular component - have been derived in the Local Galactic arm over a scale ≤ 1000 pc in the direction of the Galactic anticentre. The results have been obtained by an independent method involving analysis of the Galactic longitude dependences of the volume density of the low frequency Galactic background. An estimate of the ratio of the arm and interarm magnetic field strengths has been made.

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PEMANFAATAN RADIASI ENERGI TEGANGAN 150 KV UNTUK LAMPU LED PENERANGAN JALAN

Jurnal Teknik ◽

10.31000/jt.v7i1.936 ◽

2018 ◽

Vol 7 (1) ◽

Author(s):

Mauludi Manfaluthy

Keyword(s):

Magnetic Field ◽

Electric Field ◽

High Voltage ◽

Low Frequency ◽

Energy Utilization ◽

World Health ◽

Electromagnetic Signals ◽

Health Organization ◽

The Magnetic Field ◽

Low Frequency Waves

WHO (World Health Organization) concludes that not much effect is caused by electric field up to 20 kV / m in humans. WHO standard also mentions that humans will not be affected by the magnetic field under 100 micro tesla and that the electric field will affect the human body with a maximum standard of 5,000 volts per meter. In this study did not discuss about the effect of high voltage radiation SUTT (High Voltage Air Channel) with human health. The research will focus on energy utilization of SUTT radiation. The combination of electric field and magnetic field on SUTT (70-150KV) can generate electromagnetic (EM) and radiation waves, which are expected to be converted to turn on street lights around the location of high voltage areas or into other forms. The design of this prototype works like an antenna in general that captures electromagnetic signals and converts them into AC waves. With a capacitor that can store the potential energy of AC and Schottky diode waves created specifically for low frequency waves, make the current into one direction (DC). From the research results obtained the current generated from the radiation is very small even though the voltage is big enough.Keywords : Radiance Energy, Joule Thief, and LED Module.

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Integral Equations for Problems on Wave Propagation in Near-Earth Plasma

Symmetry ◽

10.3390/sym13081395 ◽

2021 ◽

Vol 13 (8) ◽

pp. 1395

Author(s):

Danila Kostarev ◽

Dmitri Klimushkin ◽

Pavel Mager

Keyword(s):

Magnetic Field ◽

Integral Equations ◽

Field Potential ◽

Low Frequency ◽

Fredholm Equation ◽

Compression Waves ◽

Parallel Component ◽

Electric Field Potential ◽

The Magnetic Field ◽

Low Frequency Waves

We consider the solutions of two integrodifferential equations in this work. These equations describe the ultra-low frequency waves in the dipol-like model of the magnetosphere in the gyrokinetic framework. The first one is reduced to the homogeneous, second kind Fredholm equation. This equation describes the structure of the parallel component of the magnetic field of drift-compression waves along the Earth’s magnetic field. The second equation is reduced to the inhomogeneous, second kind Fredholm equation. This equation describes the field-aligned structure of the parallel electric field potential of Alfvén waves. Both integral equations are solved numerically.

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Spacecraft and interplanetary contributions to the magnetic environment on-board LISA Pathfinder

Monthly Notices of the Royal Astronomical Society ◽

10.1093/mnras/staa830 ◽

2020 ◽

Vol 494 (2) ◽

pp. 3014-3027

Author(s):

M Armano ◽

H Audley ◽

J Baird ◽

P Binetruy ◽

M Born ◽

...

Keyword(s):

Magnetic Field ◽

New Technologies ◽

Magnetic Measurements ◽

Magnetic Measurement ◽

Low Frequency ◽

Lisa Pathfinder ◽

Frequency Regime ◽

The Magnetic Field ◽

Instrument Sensitivity ◽

Stationary Component

ABSTRACT LISA Pathfinder (LPF) has been a space-based mission designed to test new technologies that will be required for a gravitational wave observatory in space. Magnetically driven forces play a key role in the instrument sensitivity in the low-frequency regime (mHz and below), the measurement band of interest for a space-based observatory. The magnetic field can couple to the magnetic susceptibility and remanent magnetic moment from the test masses and disturb them from their geodesic movement. LPF carried on-board a dedicated magnetic measurement subsystem with noise levels of 10 $\rm nT \ Hz^{-1/2}$ from 1 Hz down to 1 mHz. In this paper we report on the magnetic measurements throughout LPF operations. We characterize the magnetic environment within the spacecraft, study the time evolution of the magnetic field and its stability down to 20 μHz, where we measure values around 200 $\rm nT \ Hz^{-1/2}$, and identify two different frequency regimes, one related to the interplanetary magnetic field and the other to the magnetic field originating inside the spacecraft. Finally, we characterize the non-stationary component of the fluctuations of the magnetic field below the mHz and relate them to the dynamics of the solar wind.

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ANALYSIS OF HIGH-FREQUENCY C-CORE MAGNETIC FLUX LEAKAGES FOR BONE TUMOR WITH INDUCTION HEATING BY USING MULTI-COIL

Proceedings 17th International Conference on Microwave and High Frequency Heating ◽

10.4995/ampere2019.2019.9900 ◽

2019 ◽

Author(s):

Metharak Jokpudsa ◽

Supawat Kotchapradit ◽

Chanchai Thongsopa ◽

Thanaset Thosdeekoraphat

Keyword(s):

Magnetic Field ◽

High Frequency ◽

Tumor Tissue ◽

Low Frequency ◽

Heat Energy ◽

High Frequencies ◽

Frequency Magnetic Field ◽

High Frequency Magnetic Field ◽

The Magnetic Field ◽

Flux Leakage

High-frequency magnetic field has been developed pervasively. The induction of heat from the magnetic field can help to treat tumor tissue to a certain extent. Normally, treatment by the low-frequency magnetic field needed to be combined with magnetic substances. To assist in the induction of magnetic fields and reduce flux leakage. However, there are studies that have found that high frequencies can cause heat to tumor tissue. In this paper present, a new magnetic application will focus on the analysis of the high-frequency magnetic nickel core with multi-coil. In order to focus the heat energy using a high-frequency magnetic field into the tumor tissue. The magnetic coil was excited by 915 MHz signal and the combination of tissues used are muscle, bone, and tumor. The magnetic power on the heating predicted by the analytical model, the power loss density (2.98e-6 w/m3) was analyzed using the CST microwave studio.

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Low Frequency Measurements in Amorphous Wire for Studying GMI Effect

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.495.201 ◽

2011 ◽

Vol 495 ◽

pp. 201-204

Author(s):

Polykseni Vourna

Keyword(s):

Magnetic Field ◽

Low Frequency ◽

Major Change ◽

Wheatstone Bridge ◽

Amorphous Wire ◽

Dc Voltage ◽

Gmi Effect ◽

Offset Voltage ◽

Ac Current ◽

The Magnetic Field

When a soft ferromagnetic material is flown by an ac current and a magnetic field is applied at the same time, a major change of its impedance is occurred. The aim of this paper is to investigate the influence of low frequency (1KHz-12KHz) ac current and the applied magnetic field on an amorphous magnetic wire (Co68Fe4.35Si12.5B15) without glass coating. For this purpose an experimental configuration has been setup, based on a Wheatstone bridge which receives an ac input signal from a frequency generator. The output is connected to the amorphous wire wrapped with a coil supplied by a dc voltage for the generation of the magnetic field. The output voltage pulse is measured for two cases a) The value of ac frequency is changing while the value of dc voltage applied to the coil remains constant (the magnetic field remains unchanged) and b) the magnetic field is changing while the ac frequency remains constant to a predefined value. Experimental results of the first scenario showed that when the frequency is altered a non-linear increase of the ac signal is observed at the output which shows an increase of the GMI effect and is related to the non-linearity of the wire’s permeability. For the second scenario the results showed an increase of the output signal offset (voltage) which also indicates an increase of the GMI effect.

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Solitary potential structures observed in the magnetosheath by the Cluster spacecraft

Nonlinear Processes in Geophysics ◽

10.5194/npg-10-3-2003 ◽

2003 ◽

Vol 10 (1/2) ◽

pp. 3-11 ◽

Cited By ~ 67

Author(s):

J. S. Pickett ◽

J. D. Menietti ◽

D. A. Gurnett ◽

B. Tsurutani ◽

P. M. Kintner ◽

...

Keyword(s):

Magnetic Field ◽

Time Series Data ◽

Broad Band ◽

Low Frequency ◽

Bow Shock ◽

Local Magnetic Field ◽

Series Data ◽

The Individual ◽

Almost All ◽

The Magnetic Field

Abstract. Bipolar pulses of ~ 25-100 µs in duration have been observed in the wave electric field data obtained by the Wideband plasma wave instrument on the Cluster spacecraft in the dayside magnetosheath. These pulses are similar in almost all respects to those observed on several spacecraft over the last few years. They represent solitary potential structures, and in this case, electron phase space holes. When the time series data containing the bipolar pulses on Cluster are transformed to the frequency domain by a windowed FFT, the pulses appear as typical broad-band features, extending from the low-frequency cutoff of the bandpass filter, ~ 1 kHz, up to as great as 20-40 kHz in some cases, with decreasing intensity as the frequency increases. The upper frequency cutoff of the broad band is an indication of the individual pulse durations (1/f). The solitary potential structures are detected when the local magnetic field is contained primarily in the spin plane, indicating that they propagate along the magnetic field. Their frequency extent and intensity seem to increase as the angle between the directions of the magnetic field and the plasma flow decreases from 90°. Of major significance is the finding that the overall profile of the broad-band features observed simultaneously by two Cluster spacecraft, separated by a distance of over 750 km, are strikingly similar in terms of onset times, frequency extent, intensity, and termination. This implies that the generation region of the solitary potential structures observed in the magnetosheath near the bow shock is very large and may be located at or near the bow shock, or be connected with the bow shock in some way.

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Magnetic fields, stellar feedback, and the geometry of H II regions

Proceedings of the International Astronomical Union ◽

10.1017/s1743921309030038 ◽

2008 ◽

Vol 4 (S259) ◽

pp. 25-34

Author(s):

Gary J. Ferland

Keyword(s):

Magnetic Field ◽

Magnetic Pressure ◽

H Ii Regions ◽

Line Profiles ◽

Ionized Gas ◽

Stellar Feedback ◽

H Ii Region ◽

Field Lines ◽

The Magnetic Field ◽

Simple Picture

AbstractMagnetic pressure has long been known to dominate over gas pressure in atomic and molecular regions of the interstellar medium. Here I review several recent observational studies of the relationships between the H+, H0 and H2 regions in M42 (the Orion complex) and M17. A simple picture results. When stars form they push back surrounding material, mainly through the outward momentum of starlight acting on grains, and field lines are dragged with the gas due to flux freezing. The magnetic field is compressed and the magnetic pressure increases until it is able to resist further expansion and the system comes into approximate magnetostatic equilibrium. Magnetic field lines can be preferentially aligned perpendicular to the long axis of quiescent cloud before stars form. After star formation and pushback occurs ionized gas will be constrained to flow along field lines and escape from the system along directions perpendicular to the long axis. The magnetic field may play other roles in the physics of the H II region and associated PDR. Cosmic rays may be enhanced along with the field and provide additional heating of atomic and molecular material. Wave motions may be associated with the field and contribute a component of turbulence to observed line profiles.

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Magneto-gasdynamic flow over a wedge

Journal of Fluid Mechanics ◽

10.1017/s0022112066000107 ◽

1966 ◽

Vol 25 (1) ◽

pp. 165-178 ◽

Cited By ~ 9

Author(s):

D. C. Pack ◽

G. W. Swan

Keyword(s):

Magnetic Field ◽

Shock Wave ◽

Shock Waves ◽

Wave Pattern ◽

Ionized Gas ◽

Current Sheets ◽

Gasdynamic Flow ◽

The Stability ◽

The Magnetic Field ◽

Insight Into

The solution for the flow of a fully ionized gas over a wedge of finite angle is known for the case when the applied magnetic field is aligned with the incident stream. In this flow there are current sheets on the surfaces of the wedge. When the magnetic field is allowed to deviate slightly from the stream, the current sheets may move into the gas and become shock waves. The magnetic fields adjacent to the wedge above and below it have to be matched. A perturbation method is introduced by means of which expressions for the unknown quantities in the different regions may be determined when there are four shocks attached to the wedge. The results give insight into the manner in which the shock-wave pattern develops as the obliquity of the magnetic field to the stream increases. The question of the stability of the shock waves is also examined.

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Filamentation and collapse of Langmuir waves in a weak magnetic field

Journal of Plasma Physics ◽

10.1017/s0022377800000052 ◽

1982 ◽

Vol 28 (1) ◽

pp. 19-36 ◽

Cited By ~ 3

Author(s):

P. Rolland ◽

S. G. Tagare

Keyword(s):

Magnetic Field ◽

External Magnetic Field ◽

Small Angle ◽

Nonlinear Interaction ◽

High Frequency ◽

Weak Magnetic Field ◽

Low Frequency ◽

Langmuir Waves ◽

The Magnetic Field

The filamentation and collapse of Langmuir waves in a weak magnetic field are analysed in two particular cases of low-frequency acoustic perturbations: (i) adiabatic perturbations which correspond to subsonic collapse, and (ii) nonadiabatic perturbations which correspond to supersonic collapse. Here the existence of Langmuir filaments and Langmuir collapse in a weak magnetic field are due to nonlinear interaction of high-frequency Langmuir waves (which make small angle with the external magnetic field) with low-frequency acoustic perturbations along the magnetic field.

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