Age, Biography and Wiki

Shoichi Sakata was born on 18 January, 1911 in Tokyo, Empire of Japan, is a Japanese physicist. Discover Shoichi Sakata's Biography, Age, Height, Physical Stats, Dating/Affairs, Family and career updates. Learn How rich is he in this year and how he spends money? Also learn how he earned most of networth at the age of 59 years old?

Popular As N/A
Occupation N/A
Age 59 years old
Zodiac Sign Capricorn
Born 18 January 1911
Birthday 18 January
Birthplace Tokyo, Empire of Japan
Date of death 16 October, 1970
Died Place Nagoya, Japan
Nationality Japan

We recommend you to check the complete list of Famous People born on 18 January. He is a member of famous model with the age 59 years old group.

Shoichi Sakata Height, Weight & Measurements

At 59 years old, Shoichi Sakata height not available right now. We will update Shoichi Sakata's Height, weight, Body Measurements, Eye Color, Hair Color, Shoe & Dress size soon as possible.

Physical Status
Height Not Available
Weight Not Available
Body Measurements Not Available
Eye Color Not Available
Hair Color Not Available

Dating & Relationship status

He is currently single. He is not dating anyone. We don't have much information about He's past relationship and any previous engaged. According to our Database, He has no children.

Family
Parents Not Available
Wife Not Available
Sibling Not Available
Children Not Available

Shoichi Sakata Net Worth

His net worth has been growing significantly in 2023-2024. So, how much is Shoichi Sakata worth at the age of 59 years old? Shoichi Sakata’s income source is mostly from being a successful model. He is from Japan. We have estimated Shoichi Sakata's net worth, money, salary, income, and assets.

Net Worth in 2024 $1 Million - $5 Million
Salary in 2024 Under Review
Net Worth in 2023 Pending
Salary in 2023 Under Review
House Not Available
Cars Not Available
Source of Income model

Shoichi Sakata Social Network

Instagram
Linkedin
Twitter
Facebook
Wikipedia
Imdb

Timeline

Shoichi Sakata (坂田 昌一) was a Japanese physicist and Marxist who was internationally known for theoretical work on the subatomic particles.

He proposed the two meson theory, the Sakata model (an early precursor to the quark model), and the Pontecorvo–Maki–Nakagawa–Sakata neutrino mixing matrix.

After the end of World War II, he joined other physicists in campaigning for the peaceful uses of nuclear power.

1883

Sakata also became closely acquainted with Katō Tadashi, who would later co-translate Friedrich Engels's 1883 unfinished work Dialectics of Nature into Japanese.

1909

According to Sakata, Dialectics of Nature and Vladimir Lenin's 1909 work Materialism and Empirio-criticism became formative works for his thinking.

1911

Sakata was born in Tokyo, Japan on January 18, 1911, to a family that held a tradition of public service.

He was the eldest of six children of Tatsue Sakata and Mikita Sakata.

At the time of Sakata's birth, Mikita was secretary to Prime Minister Katsura Tarō, who became Sakata's godfather.

1924

While attending Kōnan Middle School in Hyōgo Prefecture in 1924, Sakata was taught by the physicist Bunsaku Arakatsu.

1926

During his time as a student at Kōnan High School from 1926 to 1929, Sakata attended a lecture given by the influential physicist Jun Ishiwara.

1930

Sakata got in to the Kyoto Imperial University in 1930.

When he was a second year student, Yoshio Nishina, a granduncle-in-law of Sakata, gave a lecture on quantum mechanics at the Kyoto Imperial University.

Sakata became acquainted with Hideki Yukawa and Shin'ichirō Tomonaga, the first and the second Japanese Nobel laureates, through the lecture.

1933

After graduating from the university, Sakata worked with Tomonaga and Nishina at Rikagaku Kenkyusho (RIKEN) in 1933 and moved to Osaka Imperial University in 1934 to work with Yukawa.

1935

Yukawa published his first paper on the meson theory in 1935 and Sakata closely collaborated with him for the developments of the meson theory.

Possible existence of the neutral nuclear force carrier particle Pion was postulated by them.

1939

Accompanied by Yukawa, Sakata moved to Kyoto Imperial University as a lecturer in 1939.

1942

Sakata and Inoue proposed their two-meson theory in 1942.

At the time, a charged particle discovered in the hard component cosmic rays was misidentified as the Yukawa's meson (Pion, nuclear force career particle).

The misinterpretation led to puzzles in the discovered cosmic ray particle.

Sakata and Inoue solved these puzzles by identifying the cosmic ray particle as a daughter charged fermion produced in the decay.

A new neutral fermion was also introduced to allow decay into fermions.

We now know that these charged and neutral fermions correspond to the second generation leptons μ and in the modern language.

They then discussed the decay of the Yukawa particle,

Sakata and Inoue predicted correct spin assignment for the muon, and they also introduced the second neutrino.

They treated it as a distinct particle from the beta decay neutrino, and anticipated correctly the three body decay of the muon.

Sakata moved to Nagoya Imperial University as a professor in October 1942 and remained there until his death.

1946

The English printing of Sakata-Inoue's two-meson theory paper was delayed until 1946,

one year before the experimental discovery of π → μν decay.

1947

The name of the university was changed to Nagoya University in October 1947 after the end of the Pacific War (1945).

Sakata reorganized his research group in Nagoya to be administrated under the democracy principle after the War.

1954

Sakata stayed at the Niels Bohr Institute from May to October 1954 at the invitation of N. Bohr and C. Møller.

During his stay, Sakata gave a talk introducing works of young Japanese particle physics researchers, especially emphasizing an empirical relation found by Nakano and Nishijima, which is now known as the Nakano-Nishijima-Gell-Mann (NNG) rule

among the strongly interacting particles (hadrons).

After Sakata returned to Nagoya, Sakata and his Nagoya group started researches trying to uncover the physics behind the NNG rule.

Sakata then proposed his Sakata Model

1956

in 1956, which explains the NNG rule by postulating the fundamental building blocks of all strongly interacting particles are the proton, the neutron and the lambda baryon.

The positively charged pion is made out of a proton and an antineutron, in a manner similar to the Fermi-Yang composite Yukawa meson

model,

while the positively charged kaon is composed of a proton and an anti-lambda, succeeding to explain the NNG rule in the Sakata model.