English
Kazakh
Português (Brasil)
Русский
简体中文
Eco-vector
Akusticheskij Zhurnal
ISSN 0320-7919 (Print)
Menu     Archives
  • Home
  • About the Journal
    • Editorial Team
    • Editorial Policies
    • Author Guidelines
    • About the Journal
  • Issues
    • Search
    • Current
    • Retracted articles
    • Archives
  • Contact
  • Subscriptions
  • All Journals
User
Forgot password? Register
Notifications
  • View
  • Subscribe
Search
Browse
  • By Issue
  • By Author
  • By Title
  • By Sections
  • Other Journals
  • Categories
Subscription Login to verify subscription
Keywords acoustic waveguide aeroacoustics diffraction experiment finite element method hydroacoustics instability waves laser vibrometry mathematical modeling multiple scattering nonlinearity numerical modeling numerical simulation parabolic equation method radiation force scattering strength shallow sea shallow water acoustics ultrasound underwater sound channel wind waves
Current Issue

Vol 71, No 4 (2025)

×
User
Forgot password? Register
Notifications
  • View
  • Subscribe
Search
Browse
  • By Issue
  • By Author
  • By Title
  • By Sections
  • Other Journals
  • Categories
Subscription Login to verify subscription
Keywords acoustic waveguide aeroacoustics diffraction experiment finite element method hydroacoustics instability waves laser vibrometry mathematical modeling multiple scattering nonlinearity numerical modeling numerical simulation parabolic equation method radiation force scattering strength shallow sea shallow water acoustics ultrasound underwater sound channel wind waves
Current Issue

Vol 71, No 4 (2025)

Home > Search > Author Details

Author Details

Войтенко, Е. А.

Issue Section Title File
Vol 69, No 5 (2023) АКУСТИКА ОКЕАНА. ГИДРОАКУСТИКА Experimental Testing of Acoustic Thermometry at the Scale of the Sea of Japan with a Receiver System Placed on the Axis of an Underwater Sound Channel
Vol 71, No 1 (2025) АКУСТИКА ОКЕАНА. ГИДРОАКУСТИКА Examination of the broadband low-frequency emitters in the study of temperature regimes in the Sea of Japan
 

 

Developed by ECO-VECTOR

 

Powered by EVESYST

TOP