Measuring Instruments of Powerful UWB Emp Parameters

Dobrotvorsky, M. I.; Sakharov, K. Yu.; Mikheev, О. V.; Туркин, В. А.; Aleshko, A. I.; Dnischenko, V.N.

doi:10.1109/uwbus.2006.307261

Cited by 8 publications

(3 citation statements)

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“…The working area, where the samples to be irradiated were placed, was located within the antenna mouth, as shown in Figure 1A. The USEMP parameters were controlled with an IPPL-L converter of pulsed electric field strength (VNIIOFI, Moscow, Russia) [57][58][59].…”

Section: Experimental Setup For the Study Of The Effect Of The Pemfmentioning

confidence: 99%

“…The transition only to the instantaneous value of the electric field is valid for losses in a medium, where the ratio E/H = 377 (characteristic impedance of vacuum) is observed. The energy W, supplied to the irradiated object with the area S in one pulse, is calculated using the following equation: The USEMP parameters were controlled with an IPPL-L converter of pulsed electric field strength (VNIIOFI, Moscow, Russia) [57][58][59].…”

Section: Experimental Setup For the Study Of The Effect Of The Pemfmentioning

confidence: 99%

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The Impact of Fast-Rise-Time Electromagnetic Field and Pressure on the Aggregation of Peroxidase upon Its Adsorption onto Mica

et al. 2021

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Our present study concerns the influence of the picosecond rise-time-pulsed electromagnetic field, and the impact of nanosecond pulsed pressure on the aggregation state of horseradish peroxidase (HRP) as a model enzyme. The influence of a 640 kV/m pulsed electromagnetic field with a pulse rise-time of ~200 ps on the activity and aggregation state of an enzyme is studied by the single-molecule atomic force microscopy (AFM) method. The influence of such a field is shown to lead to aggregation of the protein and to a decrease in its enzymatic activity. Moreover, the effect of a shock wave with a pressure front rise-time of 80 ns on the increase in the HRP aggregation is demonstrated. The results obtained herein can be of use in modeling the impact of electromagnetic and pressure pulses on enzymes and on whole living organisms. Our results are also important for taking into account the effect of pulsed fields on the body in the development of drugs, therapeutic procedures, and novel highly sensitive medical diagnosticums.

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Section: Experimental Setup For the Study Of The Effect Of The Pemfmentioning

confidence: 99%

Section: Experimental Setup For the Study Of The Effect Of The Pemfmentioning

confidence: 99%

The Impact of Fast-Rise-Time Electromagnetic Field and Pressure on the Aggregation of Peroxidase upon Its Adsorption onto Mica

et al. 2021

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“…The primary measuring instrument of ultra-short EMP in Russia is a measuring transducer of electric field strength based on microstrip transmission line (see Fig. 3) [7]. The advantages of this sensor consist in flat transient response during time window.…”

Section: Measuring Systemmentioning

confidence: 99%

A measuring system for characterization of radar-absorbing materials with sounding ultra-short electromagnetic pulses over the range 0.1–40 GHz

Sakharov

Туркин

Mikheev

et al. 2015

2015 Conference on Microwave Techniques (COMITE)

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A Picosecond Pulsed Electric Field Strength Measuring Transducer

et al. 2014

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Measuring Instruments of Powerful UWB Emp Parameters

Cited by 8 publications

References 1 publication

The Impact of Fast-Rise-Time Electromagnetic Field and Pressure on the Aggregation of Peroxidase upon Its Adsorption onto Mica

The Impact of Fast-Rise-Time Electromagnetic Field and Pressure on the Aggregation of Peroxidase upon Its Adsorption onto Mica

A measuring system for characterization of radar-absorbing materials with sounding ultra-short electromagnetic pulses over the range 0.1–40 GHz

A Picosecond Pulsed Electric Field Strength Measuring Transducer

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Measuring Instruments of Powerful UWB Emp Parameters

Cited by 8 publications

References 1 publication

The Impact of Fast-Rise-Time Electromagnetic Field and Pressure on the Aggregation of Peroxidase upon Its Adsorption onto Mica

The Impact of Fast-Rise-Time Electromagnetic Field and Pressure on the Aggregation of Peroxidase upon Its Adsorption onto Mica

A measuring system for characterization of radar-absorbing materials with sounding ultra-short electromagnetic pulses over the range 0.1&#x2013;40 GHz

A Picosecond Pulsed Electric Field Strength Measuring Transducer

Contact Info

Product

Resources

About

A measuring system for characterization of radar-absorbing materials with sounding ultra-short electromagnetic pulses over the range 0.1–40 GHz