Sign In
Pricing

903010 (Harmonized System 1992 for 6-digit)

2022
World Trade $1.82BRnk 1586 / 4648
2022
Top Exporter | Top Importer $605M | $257MUnited States | China
2022
Product Complexity 0.29Rnk 2036 / 4653
2021 - 2022
Export Growth (CAGR) 10.3%Rnk 1571 / 4648
2022
Share of World Trade 0.0077%Rnk 1586 / 4648

About

Overview This page contains the latest trade data of Instruments to measure or detect ionising radiations. In 2022, Instruments to measure or detect ionising radiations were the world's 1586th most traded product, with a total trade of $1.82B. Between 2021 and 2022 the exports of Instruments to measure or detect ionising radiations grew by 10.3%, from $1.65B to $1.82B. Trade in Instruments to measure or detect ionising radiations represent 0.0077% of total world trade.

Instruments to measure or detect ionising radiations are a part of Oscilloscopes.

Exports In 2022 the top exporters of Instruments to measure or detect ionising radiations  were United States ($605M), Germany ($289M), United Kingdom ($220M), Netherlands ($104M), and Canada ($90.1M).

Imports In 2022 the top importers of Instruments to measure or detect ionising radiations were China ($257M), United States ($253M), Japan ($116M), Germany ($101M), and United Kingdom ($82.1M).

Ranking Instruments to measure or detect ionising radiations ranks 2036th in the Product Complexity Index (PCI).

Description Ionizing radiation is measured in terms of its energy and penetration. Instruments used to measure ionizing radiation are Geiger counters, scintillation counters, and ionization chambers. Geiger counters use ionization to detect the presence of ionizing radiation. Scintillation counters produce visible light when ionizing radiation is detected. Ionization chambers detect the presence of ionizing radiation by measuring the change in the electric current passing through the chamber.

Latest Trends

Latest Data

View
Flow
Y-AXIS SCALE

The following visualization shows the latest trends on Instruments to measure or detect ionising radiations. Countries are shown based on data availability.

For a full breakdown of trade patterns, visit the trend explorer or the product in country profile.

Explore Latest Trends

* Trade values are converted to USD using each month's exchange rate. For December 2023 data, the exchange rate from December 30, 2023 is used.

Subscribe today to OEC pro and access the latest data

Sign Up

Historical Data

Exporters and Importers

Top Origin (2022)United States$605M
Top Destination (2022)China$257M

In 2022 Instruments to measure or detect ionising radiations were the world's 1586th most traded product (out of 4,648).

In 2022, the top exporters of Instruments to measure or detect ionising radiations were United States ($605M), Germany ($289M), United Kingdom ($220M), Netherlands ($104M), and Canada ($90.1M).

In 2022, the top importers of Instruments to measure or detect ionising radiations were China ($257M), United States ($253M), Japan ($116M), Germany ($101M), and United Kingdom ($82.1M).

Explore Visualizations

Exporters of Instruments to measure or detect ionising radiations (2022)
[Click to Select a Country]

Importers of Instruments to measure or detect ionising radiations (2022)
[Click to Select a Country]

Market Dynamics

Color
Top Origin Growth (2021 -  2022)United States$109M
Top Destination Growth (2021 -  2022)Saudi Arabia$19.2M

Between 2021 and 2022, the exports of Instruments to measure or detect ionising radiations grew the fastest in United States ($109M), United Kingdom ($48.4M), United Arab Emirates ($23M), Netherlands ($21.8M), and Poland ($14.2M).

Between 2021 and 2022, the fastest growing importers of Instruments to measure or detect ionising radiations were Saudi Arabia ($19.2M), France ($18.9M), Singapore ($18.7M), Germany ($17.6M), and China ($16.9M).

Explore Visualizations

Exporters of Instruments to measure or detect ionising radiations (2021 - 2022)

Importers of Instruments to measure or detect ionising radiations (2021 - 2022)

Market Concentration

Value

This chart shows the evolution of the market concentration of exports of Instruments to measure or detect ionising radiations.

In 2022, market concentration measured using Shannon Entropy, was 3.69. This means that most of the exports of Instruments to measure or detect ionising radiations are explained by 12 countries.

Explore Visualizations

Value of Exports in Instruments to measure or detect ionising radiations

Net Trade

TOP NET EXPORTER (2022)United States$352M
TOP NET IMPORTER (2022)China$233M

This map shows which countries export or import more of Instruments to measure or detect ionising radiations. Each country is colored based on the difference in exports and imports of Instruments to measure or detect ionising radiations during 2022.

In 2022, the countries that had a largest trade value in exports than in imports of Instruments to measure or detect ionising radiations were United States ($352M), Germany ($189M), United Kingdom ($138M), Netherlands ($63.4M), and Canada ($40.4M).

In 2022, the countries that had a largest trade value in imports than in exports of Instruments to measure or detect ionising radiations were China ($233M), Japan ($100M), South Korea ($47.9M), Saudi Arabia ($44.5M), and Italy ($41.6M).

Net Trade (2022)

Country Comparison

Flow
Measure
Ranking

This visualization shows the countries that have an important ratio of their trade related to Instruments to measure or detect ionising radiations.
It is possible to select the main countries that export or import Instruments to measure or detect ionising radiations in the world, or by continent, as well as select the measure of interest.

Top 10 Exporters Countries of Instruments to measure or detect ionising radiations by percentage of total exports

Product Complexity

Diversification Frontier

Specialization

The Complexity-Relatedness diagram compares the risk and the strategic value of a product's potential export opportunities. Relatedness is predictive of the probability that a country increases its exports in a product. Complexity, is associated with higher levels of income, economic growth potential, lower income inequality, and lower emissions.

Relatedness vs Country Complexity (2022)

Keep Exploring

Have questions, comments, or concerns?
Send us an e-mail: support@oec.world
Follow @OECtoday on
Created, Designed, and Developed by:
In collaboration with
About the OECPrivacy PolicyTerms