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All Journal Jurnal Teknologi Omega: Jurnal Fisika dan Pendidikan Fisika
Moh. Hardiyanto, Moh.
ITI
Computer Science & IT Education Electrical & Electronics Engineering Industrial & Manufacturing Engineering Mechanical Engineering Physics

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Implementasi Modul Kontrol Temperatur Nano-Material ThSrO Memakai Digital PIC 18F452 Mikro Kontroler Hardiyanto, Moh.
Omega: Jurnal Fisika dan Pendidikan Fisika Vol 1, No 1 (2015)
Publisher : Omega: Jurnal Fisika dan Pendidikan Fisika

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Abstract

Kontrol Automatik telah memegang peranan yang sangat penting dalam perkembangan nanomaterial ThSrO. Sistem kontrol ini bekerja dengan membandingkan keluaran “plant” dengan harga yang diinginkan, menentukan deviasi (error) dan menghasilkan sinyal kontrol yang akan memperkecil error sampai nol atau sampai harga yang kecil. Secara garis besar kontroler di industry dapat diklasifikasikan menjadi beberapa jenis yaitu kontroler on-off, proporsional, integral, proporsional - turunan (PD), proporsional - integral (PI), dan kontroler proporsional - turunan - integral (PID). Salah satu arah perkembangan sistem kontrol adalah implementasi sistem kontrol pada sistem terintegrasi (embedded system). Digital PI controller merupakan salah satu aplikasi dari sistem terintegrasi yang menggunakan sistem kontrol PI yang bekerja secara digital. Sistem ini memanfaatkan karakteristik dari mikrokontroller PIC 18F452 yang bisa diisi program sebagai pengontrol pada nano-material ThSrO. Apabila sistem ini diaplikasikan dalam pengontrolan temperatur, maka dengan mengunakan algoritma PI, kita dapat mencapai nilai suhu yang kita inginkan tanpa menghasilkan error steady state. Pengontrol PI bekerja dengan mengalikan dan mengintegralkan error pada rising time ekuivalen 68 dengan Kt mendekati limit 0,755 yang dihasilkan. Kata Kunci : Nano-material ThSrO, PIC 18F452, Controller, PI Digital
Quantum States of ABR Formulation for Josephsons Tunneling in ThxDUO2 Nano Material for 516 tesla at LHC Cyclotron Hardiyanto, Moh.
Omega: Jurnal Fisika dan Pendidikan Fisika Vol 1, No 2 (2015)
Publisher : Omega: Jurnal Fisika dan Pendidikan Fisika

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The convergence quantum states of free covariant equation in Einsteins space with quantum condition is studied using the ABR (Abrikosov-Balseiro-Russell) formulation in convergence approximation for Josephson tunneling is important role for determine of neutrino particle existing, especially after Cerenkovs effect for 516 tesla super magnetic at Large Hadron Collider (LHC) Cyclotron in CERN, Lyon, France based on ThxDUO2 nano material. This approaching will be solved the problem for determine the value of interstellar Electrical Conductivity (EC) on DUO2 chain reaction, then the post condition of muon has been known exactly. In this research shown the value of EC is 4.32 x 10-6 eV at 378 tesla magnetic field for 2.1 x 104 ci/mm fast thermal neutron floating in 45.7 megawatts adjusted power of CERN’s Cyclotron. The resulted by special Electron-Scanning-Nuclear-Absorption (ESNA) shown any possibilities of Josephsons tunneling must be boundary by muon particles without neutrino particle existing for 450 - 565 tesla magnetic field on UO2 more enrichment nuclear fuel at CERN, whereas this research has purpose for provide the mathematical formulation to boundary of muons moving at nuclear research reactor to a high degree of accuracy and with Catch-Nuc, one of nuclear beam equipment has a few important value of experimental effort. Keywords: ABR formulation, EC value, ThxDUO2 nano material, super magnetic field value.
Approximation in Quantum Quadrupole at Juergen Model for Nuclear Reactor Control Rod Blade Based on ce {Th_xDUO2} Nano Materials Hardiyanto, Moh.
Omega: Jurnal Fisika dan Pendidikan Fisika Vol 4 No 1 (2018)
Publisher : Program Studi Pendidikan Fisika UHAMKA

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.31758/OmegaJPhysPhysEduc.v4i1.7

Abstract

The functional of a multi purpose research nuclear reactor control rod blade nuclear reactor is stabilized and controlling devices for nuclear chain reactions, the existing of Cerenkovs radiation impact and thermal neutron flux in reactor chamber. This research was conducted in Large Hadron Collider (LHC) - Muon Hadron Division at CERN, Lyon - France under International Research between Canadian Deuterium Uranium (CANDU) - Nuclear Reactor and Betha Group Section for sub-particles for nanomaterial. Using Juergen Model with quantum states approaching and testing by Muon-Hadron Stirrer equipment had determined the ce {Th_xDUO2} derivatives materials. This material shown the strength of thermal neutron flux absorbed about 2.56 × 10⁵ − 1.94 × 10⁶ Ci/mm, the value of Electrical Conductivity is 26.62 − 29.98 in 800° - 890° C temperature, however at 2.1 × 10⁵ Ci/mm thermal neutron flux condition is 29.44 − 37.88 in IAEA standard. At 450 tesla magnetic field and 2.1 × 10⁵ Ci/mm thermal neutron absorber, the crystalline structure reduction is 6.88% until 10.95% for 25 years period in 45.7 megawatts with ce {UO2} more enrichment and ce {Pu2O} also ce {Th2O_y} nuclear fuel element matrix.
NEW APPROACHING IN NEUTRON ABSORPTION ON THXSR2O1.8 NANO MATERIAL STRUCTURE WITH QUANTUM DOT AT MAGNETIC QUADRUPOLE ENHANCEMENT Hardiyanto, Moh.
Jurnal Teknologi Vol 8 No 1 (2015): Jurnal Teknologi
Publisher : Jurnal Teknologi, Fakultas Teknologi Industri, Institut Sains & Teknologi AKPRIND Yogyakarta

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Abstract

Kami mempresentasikan suatu penyelidikan teoritik dari struktur nano material ThxSr2O dengan adanya interaksi quantum-dot melalui suatu medan optik yang dilokasikan secara amat kuat sebagai pengukuran pada medan terdekat dalam mikroskopi optikal. Beberapa gradien kuat pada medan-medan yang dilokasikan tersebut memperlihatkan ragam interaksi multipolar berorde amat tinggi sehingga akan menimbulkan efek rata-rata transisi pada dipol magnet standar dan aturan seleksi magnetik yang ada. Untuk penerobosan quantum-dot netron dalam batasan terukur yang kuat kami mengkalkulasikan adanya interband nilai rata-rata absorpsi magnetic-quadrupole dan hal lainnya pada aturan-aturan seleksi. Ditemukan bahwa nilai rata-rata absorpsi magnetic-quadrupole dapat diperbandingkan dengan hasil nilai rata-rata kalkulasi pada pendekatan dalam absorpsi magnetic-dipole yang diteliti. Melalui aplikasi optikal pada medan yang ada yaitu magnetic-dipole dengan memperluas pengukuran-pengukuran spektroskopi pada medan ­quantum-magnetic sebesar 412 MHz sampai 515 MHz dengan menguraikan medan kuantum di sekitar 375-450 tesla berlandaskan pada pendekatan dipol standar. Hal lainnya, kami juga memperlihatkan adanya resolusi terpisah yang tidak dapat ditingkatkan melalui eksitasi selektif dari adanya transisi listrik pada quadrupole yang ada.
NEW APPROACHING OF Thx DSrU1.7 NANO-MATERIALS ON ABRIKOSOV-BALSEIRO-RUSSELL (ABR) MODEL AT 485 TESLA GYRO-ACCELERATOR FOR ENVIRONMENTALLY FRIENDLY REACTOR TECHNOLOGY Hardiyanto, Moh.
Jurnal Teknologi Vol 11 No 2 (2018): Jurnal Teknologi
Publisher : Jurnal Teknologi, Fakultas Teknologi Industri, Institut Sains & Teknologi AKPRIND Yogyakarta

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Abstract

Our research present a source of correlated photon pairs in Abrikosov-Balseiro-Russell (ABR) formalism that relies on spontaneous scattering in Thx DSrUO nano structure. Quantum correlations are shown between photon pairs that are generated through four-photon scattering where the pump photons are degenerate at a wavelength of 822.78 nm with 2.63 x 105 currie/mm fast thermal neutron floating, and the signal also idler photons are non degenerated at wavelength of 766.45 nm and 769.53 nm, respectively. In non-Abellian system for ABR formalism, the quantum approaching will be shown Cerenkov’s effect existing, then the Betha Group Large Hadron Collider (LHC) CERN, France nuclear reactor using by Thx DSrU1.7 nano materials matrix to be barrier for 2.63 x 105 currie/mm fast thermal neutron floating before the anti-neutrino particle shown up at 485 tesla particullary. Careful adjustment of the pump wavelength and polarization in Dirac’s condition are shown to be critical to observing quantum correlations on gyro-accelerator for environmentally friendly reactor technology.
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