15 research outputs found
Phase stability in two-beam accelerator driver with accompanying wave
Beam-wave dynamics in two-beam accelerator driver with accompanying wave is studied with numerical simulations.
Special attention is paid to the problems of phase stability and tolerances for microwave extraction facilities.В численном моделировании исследуется динамика взаимодействия электронного пучка и волны в драйвере двухпучкового ускорителя с сопровождающей электромагнитной волной. Особое внимание уделено вопросам фазовой стабильности и допусков для систем вывода мощности.У чисельному моделюванні досліджується динаміка взаємодії електронного пучка і хвилі в драйвері
двопучкового прискорювача з супровідною електромагнітною хвилею. Особлива увага приділена питанням
фазової стабільності і допусків для систем виводу потужності
Higgsinoless Supersymmetry and Hidden Gravity
We present a simple formulation of non-linear supersymmetry where superfields
and partnerless fields can coexist. Using this formalism, we propose a
supersymmetric Standard Model without the Higgsino as an effective model for
the TeV-scale supersymmetry breaking scenario. We also consider an application
of the Hidden Local Symmetry in non-linear supersymmetry, where we can
naturally incorporate a spin-two resonance into the theory in a manifestly
supersymmetric way. Possible signatures at the LHC experiments are discussed.Comment: 30 pages, 3 figures, references added, version to appear in JHE
Facility development for a combined cancer therapy
The system for local hyperthermia of cancers was simulated. This system is based on independently phased dipoles with frequency 150 MHz. The electromagnetic field distributions are calculated in cut of tissue-equivalent phantom. It was shown that the electromagnetic field can be focused in desirable volume by means of independent vary of amplitude and phase of each dipole. The advantages of combined therapy are discussed for common using of hyperthermia with chemotherapy, radiation therapy or surgery.Проведено моделирование работы системы для локальной гипертермии онкологических заболеваний на основе системы независимо фазируемых дипольных излучателей, работающих на частоте 150 МГц. Получены картины распределения электрических полей в сечении облучаемого образца (тканеэквивалентного фантома). Показана возможность фокусировки электромагнитного поля в необходимом объеме за счет независимого изменения фазы и амплитуды излучения каждого из диполей. Рассмотрены перспективы комбинированного использования гипертермии и химической или лучевой терапии и хирургии.Проведено моделювання роботи системи для локальної гіпертермії онкологічних захворювань на основі системи незалежно фазіруємих дипольних випромінювачів, що працюють на частоті 150 МГц. Отримано картини розподілу електричних полів у перерізі опромінюваного зразка (тканееквівалентного фантома). Показана можливість фокусування електромагнітного поля в необхідному об’ємі за рахунок незалежної зміни фази і амплітуди випромінювання кожного з диполів. Розглянуто перспективи комбінованого використання гіпертермії та хімічної або променевої терапії та хірургії
JINR-IAP FEM oscillator with Bragg resonator
A FEM-oscillator with a reversed guide magnetic field and a Bragg resonator as a RF radiation source for collider applications was studied. The configuration with a step of the corrugation phase is proved to be advantageous. It possesses such features as a high efficiency, precise tunability of the operating frequency and a narrow spectral band. It is demonstrated experimentally that such an oscillator is capable of operating at frequencies of ~30 GHz in single-mode regime with the frequency tuning in interval up to 6%. Frequency and spectrum measurements have been performed with precision of ~0.1%
JINR activity in microwave sources for TeV range linear colliders
Results of theoretical and experimental studies of the microwave radiation sources on the base of the induction linac LIU-3000 (JINR, Dubna) are presented. In particular, a FEM-oscillator with the reversed guide magnetic field and Bragg resonator as well as an electron beam buncher in the two-beam accelerator (TBA) driver was studied
Search for heavy resonances decaying into a vector boson and a Higgs boson in final states with charged leptons, neutrinos, and b quarks
Peer reviewe
Search for single production of a heavy vector-like T quark decaying to a Higgs boson and a top quark with a lepton and jets in the final state
Peer reviewe
Experiment on pulse heating and surface degradation of a copper cavity powered by powerful 30 GHz free electron maser
Experiments to investigate copper surface fatigue caused by pulsed rf radiation were carried out using the 30 GHz free electron maser. The copper surface of a special test cavity was exposed to 15–20 MW/150–200 ns rf pulses with a repetition rate of 1 Hz, providing a temperature rise of up to 250°C in each pulse. An electron microscope was used to study the copper surface both before and after exposure to 10^{4}–10^{5} rf pulses. An examination of the copper microstructure and cracks which developed during the experiment was made. Dramatic degradation of the copper surface and causes of very frequent breakdown were observed when the total number of rf pulses reaches 6×10^{4}