Mariska Natalia Rande scite author profile

Mariska Natalia Rande

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Meteorological, Climatological, And Geophysical Agency

Publications

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Comparison of Rayleigh Wave Characteristics on Superconducting Gravimeter and Sesimometer LHZ Recordings

Rande¹,

Yusuf²,

Parera³

2019

j. widyariset

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The vibrations of an earthquake can be properly recorded by the gravimeter. As a gravimeter, superconducting gravimeter (SG) has a very high accuracy; slightly different with general gravimeter. Rayleigh wave is the wave with the largest amplitude in earthquake, so it will be clear on SG tape. In this research, we use certain superconducting gravimeter (SG) and seismometer LHZ, spread over several locations around the world; just to know more about earthquakes occurring in the Vanuatu Islands (7.1 Mw) and Afghanistan (7.5 Mw) in October 2015. This research focuses on instrument responsse that records earthquake events that aims to know comparison of the characteristics of the Rayleigh wave on both instruments. Tidal value reduction were applied on SG's recording in order to get true gravity value. Then we did time-integral to get velocity and displacement. By using spectrogram function, we can display frequency of SG and LHZ. The amplitude of the Rayleigh wave recorded on the SG is smaller than that recorded on the LHZ and has signal correlation > 7.0. In any case of Rayleigh Global waves, SG is able to record clearly the phase of Rayleigh wave to phase R6 in the earthquake of Vanuatu and R7 in the Afghanistan earthquake, while LHZ only records up to the R4 and R5 phase. The spectrograph analysis reinforces the differences in the viewing screens of SG and LHZ Rayleigh Global waves in the frequency domain, R7 recorded on SG has a frequency range of 0.002 Hz to 0.006 Hz.

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ANOMALI SINYAL SEBELUM GEMPABUMI YANG TERDETEKSI OLEH REKAMAN SUPERCONDUCTING GRAVIMETER DAN SEISMOMETER (LHZ) (STUDI KASUS: GEMPABUMI DI INDONESIA MW > 6)

Rande¹,

Yusuf²,

Priyambada³

2017

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Selain menimbulkan radiasi gelombang seismik, gempabumi juga menimbulkan perubahan distribusi massa bumi, yang menyebabkan perubahan nilai gayaberat yang kecil. Sebelum terjadi gempabumi signifikan, terkadang perubahan nilai gayaberat dapat terlihat. Kami menggunakan 1 Superconducting Gravimeter (SG) dan 2 Seismometer (LHZ) untuk meneliti gempabumi yang terjadi di Indonesia dengan Mw ≥ 6. Dilakukan reduksi nilai pasang surut pada rekaman SG untuk mendapatkan nilai gayaberat sebenarnya. Rekaman sinyal Seismometer (LHZ) masih berupa satuan kecepatan, yang selanjutnya diturunkan terhadap waktu untuk mendapatkan satuan percepatan yang sama dengan SG. Kemudian dengan menggunakan fungsi spektogram, kita dapat melihat distribusi frekuensi pada rekaman SG dan Seismometer (LHZ). Dari analisa spektogram pada rekaman SG didapatkan anomali < 24 jam sebelum terjadi gempabumi utama. Anomali tersebut memiliki frekuensi yang lebih rendah dari frekuensi gempa utama yaitu ≤ 0.2 Hz dan pada rekaman Seismometer (LHZ) tidak menunjukkan dengan jelas anomali sebelum terjadi gempabumi. Frekuensi ini berasosiasi dengan peningkatan gaya-gaya stres dari gempabumi utama sampai akhirnya pecah. Sehingga dapat disimpulkan bahwa SG dapat merekam anomali sebelum terjadi gempabumi utama yang signifikan.

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